/**
 * Lexing or parsing positional information for error reporting.
 * This object is immutable.
 */
class SourceLocation {
  // The + prefix indicates that these fields aren't writeable
  // Lexer holding the input string.
  // Start offset, zero-based inclusive.
  // End offset, zero-based exclusive.
  constructor(lexer, start, end) {
    this.lexer = void 0;
    this.start = void 0;
    this.end = void 0;
    this.lexer = lexer;
    this.start = start;
    this.end = end;
  }
  /**
   * Merges two `SourceLocation`s from location providers, given they are
   * provided in order of appearance.
   * - Returns the first one's location if only the first is provided.
   * - Returns a merged range of the first and the last if both are provided
   *   and their lexers match.
   * - Otherwise, returns null.
   */


  static range(first, second) {
    if (!second) {
      return first && first.loc;
    } else if (!first || !first.loc || !second.loc || first.loc.lexer !== second.loc.lexer) {
      return null;
    } else {
      return new SourceLocation(first.loc.lexer, first.loc.start, second.loc.end);
    }
  }

}

/**
 * Interface required to break circular dependency between Token, Lexer, and
 * ParseError.
 */

/**
 * The resulting token returned from `lex`.
 *
 * It consists of the token text plus some position information.
 * The position information is essentially a range in an input string,
 * but instead of referencing the bare input string, we refer to the lexer.
 * That way it is possible to attach extra metadata to the input string,
 * like for example a file name or similar.
 *
 * The position information is optional, so it is OK to construct synthetic
 * tokens if appropriate. Not providing available position information may
 * lead to degraded error reporting, though.
 */
class Token {
  constructor(text, // the text of this token
  loc) {
    this.text = void 0;
    this.loc = void 0;
    this.text = text;
    this.loc = loc;
  }
  /**
   * Given a pair of tokens (this and endToken), compute a `Token` encompassing
   * the whole input range enclosed by these two.
   */


  range(endToken, // last token of the range, inclusive
  text) // the text of the newly constructed token
  {
    return new Token(text, SourceLocation.range(this, endToken));
  }

}

/**
 * This is the ParseError class, which is the main error thrown by KaTeX
 * functions when something has gone wrong. This is used to distinguish internal
 * errors from errors in the expression that the user provided.
 *
 * If possible, a caller should provide a Token or ParseNode with information
 * about where in the source string the problem occurred.
 */
class ParseError {
  // Error position based on passed-in Token or ParseNode.
  constructor(message, // The error message
  token) // An object providing position information
  {
    this.position = void 0;
    let error = "KaTeX parse error: " + message;
    let start;
    const loc = token && token.loc;

    if (loc && loc.start <= loc.end) {
      // If we have the input and a position, make the error a bit fancier
      // Get the input
      const input = loc.lexer.input; // Prepend some information

      start = loc.start;
      const end = loc.end;

      if (start === input.length) {
        error += " at end of input: ";
      } else {
        error += " at position " + (start + 1) + ": ";
      } // Underline token in question using combining underscores


      const underlined = input.slice(start, end).replace(/[^]/g, "$&\u0332"); // Extract some context from the input and add it to the error

      let left;

      if (start > 15) {
        left = "…" + input.slice(start - 15, start);
      } else {
        left = input.slice(0, start);
      }

      let right;

      if (end + 15 < input.length) {
        right = input.slice(end, end + 15) + "…";
      } else {
        right = input.slice(end);
      }

      error += left + underlined + right;
    } // Some hackery to make ParseError a prototype of Error
    // See http://stackoverflow.com/a/8460753


    const self = new Error(error);
    self.name = "ParseError"; // $FlowFixMe

    self.__proto__ = ParseError.prototype; // $FlowFixMe

    self.position = start;
    return self;
  }

} // $FlowFixMe More hackery


ParseError.prototype.__proto__ = Error.prototype;

/**
 * This file contains a list of utility functions which are useful in other
 * files.
 */

/**
 * Return whether an element is contained in a list
 */
const contains = function contains(list, elem) {
  return list.indexOf(elem) !== -1;
};
/**
 * Provide a default value if a setting is undefined
 * NOTE: Couldn't use `T` as the output type due to facebook/flow#5022.
 */


const deflt = function deflt(setting, defaultIfUndefined) {
  return setting === undefined ? defaultIfUndefined : setting;
}; // hyphenate and escape adapted from Facebook's React under Apache 2 license


const uppercase = /([A-Z])/g;

const hyphenate = function hyphenate(str) {
  return str.replace(uppercase, "-$1").toLowerCase();
};

const ESCAPE_LOOKUP = {
  "&": "&amp;",
  ">": "&gt;",
  "<": "&lt;",
  "\"": "&quot;",
  "'": "&#x27;"
};
const ESCAPE_REGEX = /[&><"']/g;
/**
 * Escapes text to prevent scripting attacks.
 */

function escape(text) {
  return String(text).replace(ESCAPE_REGEX, match => ESCAPE_LOOKUP[match]);
}
/**
 * Sometimes we want to pull out the innermost element of a group. In most
 * cases, this will just be the group itself, but when ordgroups and colors have
 * a single element, we want to pull that out.
 */


const getBaseElem = function getBaseElem(group) {
  if (group.type === "ordgroup") {
    if (group.body.length === 1) {
      return getBaseElem(group.body[0]);
    } else {
      return group;
    }
  } else if (group.type === "color") {
    if (group.body.length === 1) {
      return getBaseElem(group.body[0]);
    } else {
      return group;
    }
  } else if (group.type === "font") {
    return getBaseElem(group.body);
  } else {
    return group;
  }
};
/**
 * TeXbook algorithms often reference "character boxes", which are simply groups
 * with a single character in them. To decide if something is a character box,
 * we find its innermost group, and see if it is a single character.
 */


const isCharacterBox = function isCharacterBox(group) {
  const baseElem = getBaseElem(group); // These are all they types of groups which hold single characters

  return baseElem.type === "mathord" || baseElem.type === "textord" || baseElem.type === "atom";
};

const assert = function assert(value) {
  if (!value) {
    throw new Error('Expected non-null, but got ' + String(value));
  }

  return value;
};
var utils = {
  contains,
  deflt,
  escape,
  hyphenate,
  getBaseElem,
  isCharacterBox
};

/* eslint no-console:0 */

/**
 * The main Settings object
 *
 * The current options stored are:
 *  - displayMode: Whether the expression should be typeset as inline math
 *                 (false, the default), meaning that the math starts in
 *                 \textstyle and is placed in an inline-block); or as display
 *                 math (true), meaning that the math starts in \displaystyle
 *                 and is placed in a block with vertical margin.
 */
class Settings {
  constructor(options) {
    this.displayMode = void 0;
    this.leqno = void 0;
    this.fleqn = void 0;
    this.throwOnError = void 0;
    this.errorColor = void 0;
    this.macros = void 0;
    this.colorIsTextColor = void 0;
    this.strict = void 0;
    this.maxSize = void 0;
    this.maxExpand = void 0;
    this.allowedProtocols = void 0;
    // allow null options
    options = options || {};
    this.displayMode = utils.deflt(options.displayMode, false);
    this.leqno = utils.deflt(options.leqno, false);
    this.fleqn = utils.deflt(options.fleqn, false);
    this.throwOnError = utils.deflt(options.throwOnError, true);
    this.errorColor = utils.deflt(options.errorColor, "#cc0000");
    this.macros = options.macros || {};
    this.colorIsTextColor = utils.deflt(options.colorIsTextColor, false);
    this.strict = utils.deflt(options.strict, "warn");
    this.maxSize = Math.max(0, utils.deflt(options.maxSize, Infinity));
    this.maxExpand = Math.max(0, utils.deflt(options.maxExpand, 1000));
    this.allowedProtocols = utils.deflt(options.allowedProtocols, ["http", "https", "mailto", "_relative"]);
  }
  /**
   * Report nonstrict (non-LaTeX-compatible) input.
   * Can safely not be called if `this.strict` is false in JavaScript.
   */


  reportNonstrict(errorCode, errorMsg, token) {
    let strict = this.strict;

    if (typeof strict === "function") {
      // Allow return value of strict function to be boolean or string
      // (or null/undefined, meaning no further processing).
      strict = strict(errorCode, errorMsg, token);
    }

    if (!strict || strict === "ignore") {
      return;
    } else if (strict === true || strict === "error") {
      throw new ParseError("LaTeX-incompatible input and strict mode is set to 'error': " + `${errorMsg} [${errorCode}]`, token);
    } else if (strict === "warn") {
      typeof console !== "undefined" && console.warn("LaTeX-incompatible input and strict mode is set to 'warn': " + `${errorMsg} [${errorCode}]`);
    } else {
      // won't happen in type-safe code
      typeof console !== "undefined" && console.warn("LaTeX-incompatible input and strict mode is set to " + `unrecognized '${strict}': ${errorMsg} [${errorCode}]`);
    }
  }
  /**
   * Check whether to apply strict (LaTeX-adhering) behavior for unusual
   * input (like `\\`).  Unlike `nonstrict`, will not throw an error;
   * instead, "error" translates to a return value of `true`, while "ignore"
   * translates to a return value of `false`.  May still print a warning:
   * "warn" prints a warning and returns `false`.
   * This is for the second category of `errorCode`s listed in the README.
   */


  useStrictBehavior(errorCode, errorMsg, token) {
    let strict = this.strict;

    if (typeof strict === "function") {
      // Allow return value of strict function to be boolean or string
      // (or null/undefined, meaning no further processing).
      // But catch any exceptions thrown by function, treating them
      // like "error".
      try {
        strict = strict(errorCode, errorMsg, token);
      } catch (error) {
        strict = "error";
      }
    }

    if (!strict || strict === "ignore") {
      return false;
    } else if (strict === true || strict === "error") {
      return true;
    } else if (strict === "warn") {
      typeof console !== "undefined" && console.warn("LaTeX-incompatible input and strict mode is set to 'warn': " + `${errorMsg} [${errorCode}]`);
      return false;
    } else {
      // won't happen in type-safe code
      typeof console !== "undefined" && console.warn("LaTeX-incompatible input and strict mode is set to " + `unrecognized '${strict}': ${errorMsg} [${errorCode}]`);
      return false;
    }
  }

}

/**
 * This file contains information and classes for the various kinds of styles
 * used in TeX. It provides a generic `Style` class, which holds information
 * about a specific style. It then provides instances of all the different kinds
 * of styles possible, and provides functions to move between them and get
 * information about them.
 */

/**
 * The main style class. Contains a unique id for the style, a size (which is
 * the same for cramped and uncramped version of a style), and a cramped flag.
 */
class Style {
  constructor(id, size, cramped) {
    this.id = void 0;
    this.size = void 0;
    this.cramped = void 0;
    this.id = id;
    this.size = size;
    this.cramped = cramped;
  }
  /**
   * Get the style of a superscript given a base in the current style.
   */


  sup() {
    return styles[sup[this.id]];
  }
  /**
   * Get the style of a subscript given a base in the current style.
   */


  sub() {
    return styles[sub[this.id]];
  }
  /**
   * Get the style of a fraction numerator given the fraction in the current
   * style.
   */


  fracNum() {
    return styles[fracNum[this.id]];
  }
  /**
   * Get the style of a fraction denominator given the fraction in the current
   * style.
   */


  fracDen() {
    return styles[fracDen[this.id]];
  }
  /**
   * Get the cramped version of a style (in particular, cramping a cramped style
   * doesn't change the style).
   */


  cramp() {
    return styles[cramp[this.id]];
  }
  /**
   * Get a text or display version of this style.
   */


  text() {
    return styles[text[this.id]];
  }
  /**
   * Return true if this style is tightly spaced (scriptstyle/scriptscriptstyle)
   */


  isTight() {
    return this.size >= 2;
  }

} // Export an interface for type checking, but don't expose the implementation.
// This way, no more styles can be generated.


// IDs of the different styles
const D = 0;
const Dc = 1;
const T = 2;
const Tc = 3;
const S = 4;
const Sc = 5;
const SS = 6;
const SSc = 7; // Instances of the different styles

const styles = [new Style(D, 0, false), new Style(Dc, 0, true), new Style(T, 1, false), new Style(Tc, 1, true), new Style(S, 2, false), new Style(Sc, 2, true), new Style(SS, 3, false), new Style(SSc, 3, true)]; // Lookup tables for switching from one style to another

const sup = [S, Sc, S, Sc, SS, SSc, SS, SSc];
const sub = [Sc, Sc, Sc, Sc, SSc, SSc, SSc, SSc];
const fracNum = [T, Tc, S, Sc, SS, SSc, SS, SSc];
const fracDen = [Tc, Tc, Sc, Sc, SSc, SSc, SSc, SSc];
const cramp = [Dc, Dc, Tc, Tc, Sc, Sc, SSc, SSc];
const text = [D, Dc, T, Tc, T, Tc, T, Tc]; // We only export some of the styles.

var Style$1 = {
  DISPLAY: styles[D],
  TEXT: styles[T],
  SCRIPT: styles[S],
  SCRIPTSCRIPT: styles[SS]
};

/*
 * This file defines the Unicode scripts and script families that we
 * support. To add new scripts or families, just add a new entry to the
 * scriptData array below. Adding scripts to the scriptData array allows
 * characters from that script to appear in \text{} environments.
 */

/**
 * Each script or script family has a name and an array of blocks.
 * Each block is an array of two numbers which specify the start and
 * end points (inclusive) of a block of Unicode codepoints.
 */

/**
 * Unicode block data for the families of scripts we support in \text{}.
 * Scripts only need to appear here if they do not have font metrics.
 */
const scriptData = [{
  // Latin characters beyond the Latin-1 characters we have metrics for.
  // Needed for Czech, Hungarian and Turkish text, for example.
  name: 'latin',
  blocks: [[0x0100, 0x024f], // Latin Extended-A and Latin Extended-B
  [0x0300, 0x036f]]
}, {
  // The Cyrillic script used by Russian and related languages.
  // A Cyrillic subset used to be supported as explicitly defined
  // symbols in symbols.js
  name: 'cyrillic',
  blocks: [[0x0400, 0x04ff]]
}, {
  // The Brahmic scripts of South and Southeast Asia
  // Devanagari (0900–097F)
  // Bengali (0980–09FF)
  // Gurmukhi (0A00–0A7F)
  // Gujarati (0A80–0AFF)
  // Oriya (0B00–0B7F)
  // Tamil (0B80–0BFF)
  // Telugu (0C00–0C7F)
  // Kannada (0C80–0CFF)
  // Malayalam (0D00–0D7F)
  // Sinhala (0D80–0DFF)
  // Thai (0E00–0E7F)
  // Lao (0E80–0EFF)
  // Tibetan (0F00–0FFF)
  // Myanmar (1000–109F)
  name: 'brahmic',
  blocks: [[0x0900, 0x109F]]
}, {
  name: 'georgian',
  blocks: [[0x10A0, 0x10ff]]
}, {
  // Chinese and Japanese.
  // The "k" in cjk is for Korean, but we've separated Korean out
  name: "cjk",
  blocks: [[0x3000, 0x30FF], // CJK symbols and punctuation, Hiragana, Katakana
  [0x4E00, 0x9FAF], // CJK ideograms
  [0xFF00, 0xFF60]]
}, {
  // Korean
  name: 'hangul',
  blocks: [[0xAC00, 0xD7AF]]
}];
/**
 * Given a codepoint, return the name of the script or script family
 * it is from, or null if it is not part of a known block
 */

function scriptFromCodepoint(codepoint) {
  for (let i = 0; i < scriptData.length; i++) {
    const script = scriptData[i];

    for (let i = 0; i < script.blocks.length; i++) {
      const block = script.blocks[i];

      if (codepoint >= block[0] && codepoint <= block[1]) {
        return script.name;
      }
    }
  }

  return null;
}
/**
 * A flattened version of all the supported blocks in a single array.
 * This is an optimization to make supportedCodepoint() fast.
 */

const allBlocks = [];
scriptData.forEach(s => s.blocks.forEach(b => allBlocks.push(...b)));
/**
 * Given a codepoint, return true if it falls within one of the
 * scripts or script families defined above and false otherwise.
 *
 * Micro benchmarks shows that this is faster than
 * /[\u3000-\u30FF\u4E00-\u9FAF\uFF00-\uFF60\uAC00-\uD7AF\u0900-\u109F]/.test()
 * in Firefox, Chrome and Node.
 */

function supportedCodepoint(codepoint) {
  for (let i = 0; i < allBlocks.length; i += 2) {
    if (codepoint >= allBlocks[i] && codepoint <= allBlocks[i + 1]) {
      return true;
    }
  }

  return false;
}

/**
 * This file provides support to domTree.js
 * It's a storehouse of path geometry for SVG images.
 */
// In all paths below, the viewBox-to-em scale is 1000:1.
const hLinePad = 80; // padding above a sqrt viniculum.

const path = {
  // sqrtMain path geometry is from glyph U221A in the font KaTeX Main
  // All surds have 80 units padding above the viniculumn.
  sqrtMain: `M95,${622 + hLinePad}c-2.7,0,-7.17,-2.7,-13.5,-8c-5.8,-5.3,-9.5,
-10,-9.5,-14c0,-2,0.3,-3.3,1,-4c1.3,-2.7,23.83,-20.7,67.5,-54c44.2,-33.3,65.8,
-50.3,66.5,-51c1.3,-1.3,3,-2,5,-2c4.7,0,8.7,3.3,12,10s173,378,173,378c0.7,0,
35.3,-71,104,-213c68.7,-142,137.5,-285,206.5,-429c69,-144,104.5,-217.7,106.5,
-221c5.3,-9.3,12,-14,20,-14H400000v40H845.2724s-225.272,467,-225.272,467
s-235,486,-235,486c-2.7,4.7,-9,7,-19,7c-6,0,-10,-1,-12,-3s-194,-422,-194,-422
s-65,47,-65,47z M834 ${hLinePad}H400000v40H845z`,
  // size1 is from glyph U221A in the font KaTeX_Size1-Regular
  sqrtSize1: `M263,${601 + hLinePad}c0.7,0,18,39.7,52,119c34,79.3,68.167,
158.7,102.5,238c34.3,79.3,51.8,119.3,52.5,120c340,-704.7,510.7,-1060.3,512,-1067
c4.7,-7.3,11,-11,19,-11H40000v40H1012.3s-271.3,567,-271.3,567c-38.7,80.7,-84,
175,-136,283c-52,108,-89.167,185.3,-111.5,232c-22.3,46.7,-33.8,70.3,-34.5,71
c-4.7,4.7,-12.3,7,-23,7s-12,-1,-12,-1s-109,-253,-109,-253c-72.7,-168,-109.3,
-252,-110,-252c-10.7,8,-22,16.7,-34,26c-22,17.3,-33.3,26,-34,26s-26,-26,-26,-26
s76,-59,76,-59s76,-60,76,-60z M1001 ${hLinePad}H40000v40H1012z`,
  // size2 is from glyph U221A in the font KaTeX_Size2-Regular
  // The 80 units padding is most obvious here. Note start node at M1001 80.
  sqrtSize2: `M1001,${hLinePad}H400000v40H1013.1s-83.4,268,-264.1,840c-180.7,
572,-277,876.3,-289,913c-4.7,4.7,-12.7,7,-24,7s-12,0,-12,0c-1.3,-3.3,-3.7,-11.7,
-7,-25c-35.3,-125.3,-106.7,-373.3,-214,-744c-10,12,-21,25,-33,39s-32,39,-32,39
c-6,-5.3,-15,-14,-27,-26s25,-30,25,-30c26.7,-32.7,52,-63,76,-91s52,-60,52,-60
s208,722,208,722c56,-175.3,126.3,-397.3,211,-666c84.7,-268.7,153.8,-488.2,207.5,
-658.5c53.7,-170.3,84.5,-266.8,92.5,-289.5c4,-6.7,10,-10,18,-10z
M1001 ${hLinePad}H400000v40H1013z`,
  // size3 is from glyph U221A in the font KaTeX_Size3-Regular
  sqrtSize3: `M424,${2398 + hLinePad}c-1.3,-0.7,-38.5,-172,-111.5,-514c-73,
-342,-109.8,-513.3,-110.5,-514c0,-2,-10.7,14.3,-32,49c-4.7,7.3,-9.8,15.7,-15.5,
25c-5.7,9.3,-9.8,16,-12.5,20s-5,7,-5,7c-4,-3.3,-8.3,-7.7,-13,-13s-13,-13,-13,
-13s76,-122,76,-122s77,-121,77,-121s209,968,209,968c0,-2,84.7,-361.7,254,-1079
c169.3,-717.3,254.7,-1077.7,256,-1081c4,-6.7,10,-10,18,-10H400000v40H1014.6
s-87.3,378.7,-272.6,1166c-185.3,787.3,-279.3,1182.3,-282,1185c-2,6,-10,9,-24,9
c-8,0,-12,-0.7,-12,-2z M1001 ${hLinePad}H400000v40H1014z`,
  // size4 is from glyph U221A in the font KaTeX_Size4-Regular
  sqrtSize4: `M473,${2713 + hLinePad}c339.3,-1799.3,509.3,-2700,510,-2702
c3.3,-7.3,9.3,-11,18,-11H400000v40H1017.7s-90.5,478,-276.2,1466c-185.7,988,
-279.5,1483,-281.5,1485c-2,6,-10,9,-24,9c-8,0,-12,-0.7,-12,-2c0,-1.3,-5.3,-32,
-16,-92c-50.7,-293.3,-119.7,-693.3,-207,-1200c0,-1.3,-5.3,8.7,-16,30c-10.7,
21.3,-21.3,42.7,-32,64s-16,33,-16,33s-26,-26,-26,-26s76,-153,76,-153s77,-151,
77,-151c0.7,0.7,35.7,202,105,604c67.3,400.7,102,602.7,104,606z
M1001 ${hLinePad}H400000v40H1017z`,
  // The doubleleftarrow geometry is from glyph U+21D0 in the font KaTeX Main
  doubleleftarrow: `M262 157
l10-10c34-36 62.7-77 86-123 3.3-8 5-13.3 5-16 0-5.3-6.7-8-20-8-7.3
 0-12.2.5-14.5 1.5-2.3 1-4.8 4.5-7.5 10.5-49.3 97.3-121.7 169.3-217 216-28
 14-57.3 25-88 33-6.7 2-11 3.8-13 5.5-2 1.7-3 4.2-3 7.5s1 5.8 3 7.5
c2 1.7 6.3 3.5 13 5.5 68 17.3 128.2 47.8 180.5 91.5 52.3 43.7 93.8 96.2 124.5
 157.5 9.3 8 15.3 12.3 18 13h6c12-.7 18-4 18-10 0-2-1.7-7-5-15-23.3-46-52-87
-86-123l-10-10h399738v-40H218c328 0 0 0 0 0l-10-8c-26.7-20-65.7-43-117-69 2.7
-2 6-3.7 10-5 36.7-16 72.3-37.3 107-64l10-8h399782v-40z
m8 0v40h399730v-40zm0 194v40h399730v-40z`,
  // doublerightarrow is from glyph U+21D2 in font KaTeX Main
  doublerightarrow: `M399738 392l
-10 10c-34 36-62.7 77-86 123-3.3 8-5 13.3-5 16 0 5.3 6.7 8 20 8 7.3 0 12.2-.5
 14.5-1.5 2.3-1 4.8-4.5 7.5-10.5 49.3-97.3 121.7-169.3 217-216 28-14 57.3-25 88
-33 6.7-2 11-3.8 13-5.5 2-1.7 3-4.2 3-7.5s-1-5.8-3-7.5c-2-1.7-6.3-3.5-13-5.5-68
-17.3-128.2-47.8-180.5-91.5-52.3-43.7-93.8-96.2-124.5-157.5-9.3-8-15.3-12.3-18
-13h-6c-12 .7-18 4-18 10 0 2 1.7 7 5 15 23.3 46 52 87 86 123l10 10H0v40h399782
c-328 0 0 0 0 0l10 8c26.7 20 65.7 43 117 69-2.7 2-6 3.7-10 5-36.7 16-72.3 37.3
-107 64l-10 8H0v40zM0 157v40h399730v-40zm0 194v40h399730v-40z`,
  // leftarrow is from glyph U+2190 in font KaTeX Main
  leftarrow: `M400000 241H110l3-3c68.7-52.7 113.7-120
 135-202 4-14.7 6-23 6-25 0-7.3-7-11-21-11-8 0-13.2.8-15.5 2.5-2.3 1.7-4.2 5.8
-5.5 12.5-1.3 4.7-2.7 10.3-4 17-12 48.7-34.8 92-68.5 130S65.3 228.3 18 247
c-10 4-16 7.7-18 11 0 8.7 6 14.3 18 17 47.3 18.7 87.8 47 121.5 85S196 441.3 208
 490c.7 2 1.3 5 2 9s1.2 6.7 1.5 8c.3 1.3 1 3.3 2 6s2.2 4.5 3.5 5.5c1.3 1 3.3
 1.8 6 2.5s6 1 10 1c14 0 21-3.7 21-11 0-2-2-10.3-6-25-20-79.3-65-146.7-135-202
 l-3-3h399890zM100 241v40h399900v-40z`,
  // overbrace is from glyphs U+23A9/23A8/23A7 in font KaTeX_Size4-Regular
  leftbrace: `M6 548l-6-6v-35l6-11c56-104 135.3-181.3 238-232 57.3-28.7 117
-45 179-50h399577v120H403c-43.3 7-81 15-113 26-100.7 33-179.7 91-237 174-2.7
 5-6 9-10 13-.7 1-7.3 1-20 1H6z`,
  leftbraceunder: `M0 6l6-6h17c12.688 0 19.313.3 20 1 4 4 7.313 8.3 10 13
 35.313 51.3 80.813 93.8 136.5 127.5 55.688 33.7 117.188 55.8 184.5 66.5.688
 0 2 .3 4 1 18.688 2.7 76 4.3 172 5h399450v120H429l-6-1c-124.688-8-235-61.7
-331-161C60.687 138.7 32.312 99.3 7 54L0 41V6z`,
  // overgroup is from the MnSymbol package (public domain)
  leftgroup: `M400000 80
H435C64 80 168.3 229.4 21 260c-5.9 1.2-18 0-18 0-2 0-3-1-3-3v-38C76 61 257 0
 435 0h399565z`,
  leftgroupunder: `M400000 262
H435C64 262 168.3 112.6 21 82c-5.9-1.2-18 0-18 0-2 0-3 1-3 3v38c76 158 257 219
 435 219h399565z`,
  // Harpoons are from glyph U+21BD in font KaTeX Main
  leftharpoon: `M0 267c.7 5.3 3 10 7 14h399993v-40H93c3.3
-3.3 10.2-9.5 20.5-18.5s17.8-15.8 22.5-20.5c50.7-52 88-110.3 112-175 4-11.3 5
-18.3 3-21-1.3-4-7.3-6-18-6-8 0-13 .7-15 2s-4.7 6.7-8 16c-42 98.7-107.3 174.7
-196 228-6.7 4.7-10.7 8-12 10-1.3 2-2 5.7-2 11zm100-26v40h399900v-40z`,
  leftharpoonplus: `M0 267c.7 5.3 3 10 7 14h399993v-40H93c3.3-3.3 10.2-9.5
 20.5-18.5s17.8-15.8 22.5-20.5c50.7-52 88-110.3 112-175 4-11.3 5-18.3 3-21-1.3
-4-7.3-6-18-6-8 0-13 .7-15 2s-4.7 6.7-8 16c-42 98.7-107.3 174.7-196 228-6.7 4.7
-10.7 8-12 10-1.3 2-2 5.7-2 11zm100-26v40h399900v-40zM0 435v40h400000v-40z
m0 0v40h400000v-40z`,
  leftharpoondown: `M7 241c-4 4-6.333 8.667-7 14 0 5.333.667 9 2 11s5.333
 5.333 12 10c90.667 54 156 130 196 228 3.333 10.667 6.333 16.333 9 17 2 .667 5
 1 9 1h5c10.667 0 16.667-2 18-6 2-2.667 1-9.667-3-21-32-87.333-82.667-157.667
-152-211l-3-3h399907v-40zM93 281 H400000 v-40L7 241z`,
  leftharpoondownplus: `M7 435c-4 4-6.3 8.7-7 14 0 5.3.7 9 2 11s5.3 5.3 12
 10c90.7 54 156 130 196 228 3.3 10.7 6.3 16.3 9 17 2 .7 5 1 9 1h5c10.7 0 16.7
-2 18-6 2-2.7 1-9.7-3-21-32-87.3-82.7-157.7-152-211l-3-3h399907v-40H7zm93 0
v40h399900v-40zM0 241v40h399900v-40zm0 0v40h399900v-40z`,
  // hook is from glyph U+21A9 in font KaTeX Main
  lefthook: `M400000 281 H103s-33-11.2-61-33.5S0 197.3 0 164s14.2-61.2 42.5
-83.5C70.8 58.2 104 47 142 47 c16.7 0 25 6.7 25 20 0 12-8.7 18.7-26 20-40 3.3
-68.7 15.7-86 37-10 12-15 25.3-15 40 0 22.7 9.8 40.7 29.5 54 19.7 13.3 43.5 21
 71.5 23h399859zM103 281v-40h399897v40z`,
  leftlinesegment: `M40 281 V428 H0 V94 H40 V241 H400000 v40z
M40 281 V428 H0 V94 H40 V241 H400000 v40z`,
  leftmapsto: `M40 281 V448H0V74H40V241H400000v40z
M40 281 V448H0V74H40V241H400000v40z`,
  // tofrom is from glyph U+21C4 in font KaTeX AMS Regular
  leftToFrom: `M0 147h400000v40H0zm0 214c68 40 115.7 95.7 143 167h22c15.3 0 23
-.3 23-1 0-1.3-5.3-13.7-16-37-18-35.3-41.3-69-70-101l-7-8h399905v-40H95l7-8
c28.7-32 52-65.7 70-101 10.7-23.3 16-35.7 16-37 0-.7-7.7-1-23-1h-22C115.7 265.3
 68 321 0 361zm0-174v-40h399900v40zm100 154v40h399900v-40z`,
  longequal: `M0 50 h400000 v40H0z m0 194h40000v40H0z
M0 50 h400000 v40H0z m0 194h40000v40H0z`,
  midbrace: `M200428 334
c-100.7-8.3-195.3-44-280-108-55.3-42-101.7-93-139-153l-9-14c-2.7 4-5.7 8.7-9 14
-53.3 86.7-123.7 153-211 199-66.7 36-137.3 56.3-212 62H0V214h199568c178.3-11.7
 311.7-78.3 403-201 6-8 9.7-12 11-12 .7-.7 6.7-1 18-1s17.3.3 18 1c1.3 0 5 4 11
 12 44.7 59.3 101.3 106.3 170 141s145.3 54.3 229 60h199572v120z`,
  midbraceunder: `M199572 214
c100.7 8.3 195.3 44 280 108 55.3 42 101.7 93 139 153l9 14c2.7-4 5.7-8.7 9-14
 53.3-86.7 123.7-153 211-199 66.7-36 137.3-56.3 212-62h199568v120H200432c-178.3
 11.7-311.7 78.3-403 201-6 8-9.7 12-11 12-.7.7-6.7 1-18 1s-17.3-.3-18-1c-1.3 0
-5-4-11-12-44.7-59.3-101.3-106.3-170-141s-145.3-54.3-229-60H0V214z`,
  oiintSize1: `M512.6 71.6c272.6 0 320.3 106.8 320.3 178.2 0 70.8-47.7 177.6
-320.3 177.6S193.1 320.6 193.1 249.8c0-71.4 46.9-178.2 319.5-178.2z
m368.1 178.2c0-86.4-60.9-215.4-368.1-215.4-306.4 0-367.3 129-367.3 215.4 0 85.8
60.9 214.8 367.3 214.8 307.2 0 368.1-129 368.1-214.8z`,
  oiintSize2: `M757.8 100.1c384.7 0 451.1 137.6 451.1 230 0 91.3-66.4 228.8
-451.1 228.8-386.3 0-452.7-137.5-452.7-228.8 0-92.4 66.4-230 452.7-230z
m502.4 230c0-111.2-82.4-277.2-502.4-277.2s-504 166-504 277.2
c0 110 84 276 504 276s502.4-166 502.4-276z`,
  oiiintSize1: `M681.4 71.6c408.9 0 480.5 106.8 480.5 178.2 0 70.8-71.6 177.6
-480.5 177.6S202.1 320.6 202.1 249.8c0-71.4 70.5-178.2 479.3-178.2z
m525.8 178.2c0-86.4-86.8-215.4-525.7-215.4-437.9 0-524.7 129-524.7 215.4 0
85.8 86.8 214.8 524.7 214.8 438.9 0 525.7-129 525.7-214.8z`,
  oiiintSize2: `M1021.2 53c603.6 0 707.8 165.8 707.8 277.2 0 110-104.2 275.8
-707.8 275.8-606 0-710.2-165.8-710.2-275.8C311 218.8 415.2 53 1021.2 53z
m770.4 277.1c0-131.2-126.4-327.6-770.5-327.6S248.4 198.9 248.4 330.1
c0 130 128.8 326.4 772.7 326.4s770.5-196.4 770.5-326.4z`,
  rightarrow: `M0 241v40h399891c-47.3 35.3-84 78-110 128
-16.7 32-27.7 63.7-33 95 0 1.3-.2 2.7-.5 4-.3 1.3-.5 2.3-.5 3 0 7.3 6.7 11 20
 11 8 0 13.2-.8 15.5-2.5 2.3-1.7 4.2-5.5 5.5-11.5 2-13.3 5.7-27 11-41 14.7-44.7
 39-84.5 73-119.5s73.7-60.2 119-75.5c6-2 9-5.7 9-11s-3-9-9-11c-45.3-15.3-85
-40.5-119-75.5s-58.3-74.8-73-119.5c-4.7-14-8.3-27.3-11-40-1.3-6.7-3.2-10.8-5.5
-12.5-2.3-1.7-7.5-2.5-15.5-2.5-14 0-21 3.7-21 11 0 2 2 10.3 6 25 20.7 83.3 67
 151.7 139 205zm0 0v40h399900v-40z`,
  rightbrace: `M400000 542l
-6 6h-17c-12.7 0-19.3-.3-20-1-4-4-7.3-8.3-10-13-35.3-51.3-80.8-93.8-136.5-127.5
s-117.2-55.8-184.5-66.5c-.7 0-2-.3-4-1-18.7-2.7-76-4.3-172-5H0V214h399571l6 1
c124.7 8 235 61.7 331 161 31.3 33.3 59.7 72.7 85 118l7 13v35z`,
  rightbraceunder: `M399994 0l6 6v35l-6 11c-56 104-135.3 181.3-238 232-57.3
 28.7-117 45-179 50H-300V214h399897c43.3-7 81-15 113-26 100.7-33 179.7-91 237
-174 2.7-5 6-9 10-13 .7-1 7.3-1 20-1h17z`,
  rightgroup: `M0 80h399565c371 0 266.7 149.4 414 180 5.9 1.2 18 0 18 0 2 0
 3-1 3-3v-38c-76-158-257-219-435-219H0z`,
  rightgroupunder: `M0 262h399565c371 0 266.7-149.4 414-180 5.9-1.2 18 0 18
 0 2 0 3 1 3 3v38c-76 158-257 219-435 219H0z`,
  rightharpoon: `M0 241v40h399993c4.7-4.7 7-9.3 7-14 0-9.3
-3.7-15.3-11-18-92.7-56.7-159-133.7-199-231-3.3-9.3-6-14.7-8-16-2-1.3-7-2-15-2
-10.7 0-16.7 2-18 6-2 2.7-1 9.7 3 21 15.3 42 36.7 81.8 64 119.5 27.3 37.7 58
 69.2 92 94.5zm0 0v40h399900v-40z`,
  rightharpoonplus: `M0 241v40h399993c4.7-4.7 7-9.3 7-14 0-9.3-3.7-15.3-11
-18-92.7-56.7-159-133.7-199-231-3.3-9.3-6-14.7-8-16-2-1.3-7-2-15-2-10.7 0-16.7
 2-18 6-2 2.7-1 9.7 3 21 15.3 42 36.7 81.8 64 119.5 27.3 37.7 58 69.2 92 94.5z
m0 0v40h399900v-40z m100 194v40h399900v-40zm0 0v40h399900v-40z`,
  rightharpoondown: `M399747 511c0 7.3 6.7 11 20 11 8 0 13-.8 15-2.5s4.7-6.8
 8-15.5c40-94 99.3-166.3 178-217 13.3-8 20.3-12.3 21-13 5.3-3.3 8.5-5.8 9.5
-7.5 1-1.7 1.5-5.2 1.5-10.5s-2.3-10.3-7-15H0v40h399908c-34 25.3-64.7 57-92 95
-27.3 38-48.7 77.7-64 119-3.3 8.7-5 14-5 16zM0 241v40h399900v-40z`,
  rightharpoondownplus: `M399747 705c0 7.3 6.7 11 20 11 8 0 13-.8
 15-2.5s4.7-6.8 8-15.5c40-94 99.3-166.3 178-217 13.3-8 20.3-12.3 21-13 5.3-3.3
 8.5-5.8 9.5-7.5 1-1.7 1.5-5.2 1.5-10.5s-2.3-10.3-7-15H0v40h399908c-34 25.3
-64.7 57-92 95-27.3 38-48.7 77.7-64 119-3.3 8.7-5 14-5 16zM0 435v40h399900v-40z
m0-194v40h400000v-40zm0 0v40h400000v-40z`,
  righthook: `M399859 241c-764 0 0 0 0 0 40-3.3 68.7-15.7 86-37 10-12 15-25.3
 15-40 0-22.7-9.8-40.7-29.5-54-19.7-13.3-43.5-21-71.5-23-17.3-1.3-26-8-26-20 0
-13.3 8.7-20 26-20 38 0 71 11.2 99 33.5 0 0 7 5.6 21 16.7 14 11.2 21 33.5 21
 66.8s-14 61.2-42 83.5c-28 22.3-61 33.5-99 33.5L0 241z M0 281v-40h399859v40z`,
  rightlinesegment: `M399960 241 V94 h40 V428 h-40 V281 H0 v-40z
M399960 241 V94 h40 V428 h-40 V281 H0 v-40z`,
  rightToFrom: `M400000 167c-70.7-42-118-97.7-142-167h-23c-15.3 0-23 .3-23
 1 0 1.3 5.3 13.7 16 37 18 35.3 41.3 69 70 101l7 8H0v40h399905l-7 8c-28.7 32
-52 65.7-70 101-10.7 23.3-16 35.7-16 37 0 .7 7.7 1 23 1h23c24-69.3 71.3-125 142
-167z M100 147v40h399900v-40zM0 341v40h399900v-40z`,
  // twoheadleftarrow is from glyph U+219E in font KaTeX AMS Regular
  twoheadleftarrow: `M0 167c68 40
 115.7 95.7 143 167h22c15.3 0 23-.3 23-1 0-1.3-5.3-13.7-16-37-18-35.3-41.3-69
-70-101l-7-8h125l9 7c50.7 39.3 85 86 103 140h46c0-4.7-6.3-18.7-19-42-18-35.3
-40-67.3-66-96l-9-9h399716v-40H284l9-9c26-28.7 48-60.7 66-96 12.7-23.333 19
-37.333 19-42h-46c-18 54-52.3 100.7-103 140l-9 7H95l7-8c28.7-32 52-65.7 70-101
 10.7-23.333 16-35.7 16-37 0-.7-7.7-1-23-1h-22C115.7 71.3 68 127 0 167z`,
  twoheadrightarrow: `M400000 167
c-68-40-115.7-95.7-143-167h-22c-15.3 0-23 .3-23 1 0 1.3 5.3 13.7 16 37 18 35.3
 41.3 69 70 101l7 8h-125l-9-7c-50.7-39.3-85-86-103-140h-46c0 4.7 6.3 18.7 19 42
 18 35.3 40 67.3 66 96l9 9H0v40h399716l-9 9c-26 28.7-48 60.7-66 96-12.7 23.333
-19 37.333-19 42h46c18-54 52.3-100.7 103-140l9-7h125l-7 8c-28.7 32-52 65.7-70
 101-10.7 23.333-16 35.7-16 37 0 .7 7.7 1 23 1h22c27.3-71.3 75-127 143-167z`,
  // tilde1 is a modified version of a glyph from the MnSymbol package
  tilde1: `M200 55.538c-77 0-168 73.953-177 73.953-3 0-7
-2.175-9-5.437L2 97c-1-2-2-4-2-6 0-4 2-7 5-9l20-12C116 12 171 0 207 0c86 0
 114 68 191 68 78 0 168-68 177-68 4 0 7 2 9 5l12 19c1 2.175 2 4.35 2 6.525 0
 4.35-2 7.613-5 9.788l-19 13.05c-92 63.077-116.937 75.308-183 76.128
-68.267.847-113-73.952-191-73.952z`,
  // ditto tilde2, tilde3, & tilde4
  tilde2: `M344 55.266c-142 0-300.638 81.316-311.5 86.418
-8.01 3.762-22.5 10.91-23.5 5.562L1 120c-1-2-1-3-1-4 0-5 3-9 8-10l18.4-9C160.9
 31.9 283 0 358 0c148 0 188 122 331 122s314-97 326-97c4 0 8 2 10 7l7 21.114
c1 2.14 1 3.21 1 4.28 0 5.347-3 9.626-7 10.696l-22.3 12.622C852.6 158.372 751
 181.476 676 181.476c-149 0-189-126.21-332-126.21z`,
  tilde3: `M786 59C457 59 32 175.242 13 175.242c-6 0-10-3.457
-11-10.37L.15 138c-1-7 3-12 10-13l19.2-6.4C378.4 40.7 634.3 0 804.3 0c337 0
 411.8 157 746.8 157 328 0 754-112 773-112 5 0 10 3 11 9l1 14.075c1 8.066-.697
 16.595-6.697 17.492l-21.052 7.31c-367.9 98.146-609.15 122.696-778.15 122.696
 -338 0-409-156.573-744-156.573z`,
  tilde4: `M786 58C457 58 32 177.487 13 177.487c-6 0-10-3.345
-11-10.035L.15 143c-1-7 3-12 10-13l22-6.7C381.2 35 637.15 0 807.15 0c337 0 409
 177 744 177 328 0 754-127 773-127 5 0 10 3 11 9l1 14.794c1 7.805-3 13.38-9
 14.495l-20.7 5.574c-366.85 99.79-607.3 139.372-776.3 139.372-338 0-409
 -175.236-744-175.236z`,
  // vec is from glyph U+20D7 in font KaTeX Main
  vec: `M377 20c0-5.333 1.833-10 5.5-14S391 0 397 0c4.667 0 8.667 1.667 12 5
3.333 2.667 6.667 9 10 19 6.667 24.667 20.333 43.667 41 57 7.333 4.667 11
10.667 11 18 0 6-1 10-3 12s-6.667 5-14 9c-28.667 14.667-53.667 35.667-75 63
-1.333 1.333-3.167 3.5-5.5 6.5s-4 4.833-5 5.5c-1 .667-2.5 1.333-4.5 2s-4.333 1
-7 1c-4.667 0-9.167-1.833-13.5-5.5S337 184 337 178c0-12.667 15.667-32.333 47-59
H213l-171-1c-8.667-6-13-12.333-13-19 0-4.667 4.333-11.333 13-20h359
c-16-25.333-24-45-24-59z`,
  // widehat1 is a modified version of a glyph from the MnSymbol package
  widehat1: `M529 0h5l519 115c5 1 9 5 9 10 0 1-1 2-1 3l-4 22
c-1 5-5 9-11 9h-2L532 67 19 159h-2c-5 0-9-4-11-9l-5-22c-1-6 2-12 8-13z`,
  // ditto widehat2, widehat3, & widehat4
  widehat2: `M1181 0h2l1171 176c6 0 10 5 10 11l-2 23c-1 6-5 10
-11 10h-1L1182 67 15 220h-1c-6 0-10-4-11-10l-2-23c-1-6 4-11 10-11z`,
  widehat3: `M1181 0h2l1171 236c6 0 10 5 10 11l-2 23c-1 6-5 10
-11 10h-1L1182 67 15 280h-1c-6 0-10-4-11-10l-2-23c-1-6 4-11 10-11z`,
  widehat4: `M1181 0h2l1171 296c6 0 10 5 10 11l-2 23c-1 6-5 10
-11 10h-1L1182 67 15 340h-1c-6 0-10-4-11-10l-2-23c-1-6 4-11 10-11z`,
  // widecheck paths are all inverted versions of widehat
  widecheck1: `M529,159h5l519,-115c5,-1,9,-5,9,-10c0,-1,-1,-2,-1,-3l-4,-22c-1,
-5,-5,-9,-11,-9h-2l-512,92l-513,-92h-2c-5,0,-9,4,-11,9l-5,22c-1,6,2,12,8,13z`,
  widecheck2: `M1181,220h2l1171,-176c6,0,10,-5,10,-11l-2,-23c-1,-6,-5,-10,
-11,-10h-1l-1168,153l-1167,-153h-1c-6,0,-10,4,-11,10l-2,23c-1,6,4,11,10,11z`,
  widecheck3: `M1181,280h2l1171,-236c6,0,10,-5,10,-11l-2,-23c-1,-6,-5,-10,
-11,-10h-1l-1168,213l-1167,-213h-1c-6,0,-10,4,-11,10l-2,23c-1,6,4,11,10,11z`,
  widecheck4: `M1181,340h2l1171,-296c6,0,10,-5,10,-11l-2,-23c-1,-6,-5,-10,
-11,-10h-1l-1168,273l-1167,-273h-1c-6,0,-10,4,-11,10l-2,23c-1,6,4,11,10,11z`,
  // The next ten paths support reaction arrows from the mhchem package.
  // Arrows for \ce{<-->} are offset from xAxis by 0.22ex, per mhchem in LaTeX
  // baraboveleftarrow is mostly from from glyph U+2190 in font KaTeX Main
  baraboveleftarrow: `M400000 620h-399890l3 -3c68.7 -52.7 113.7 -120 135 -202
c4 -14.7 6 -23 6 -25c0 -7.3 -7 -11 -21 -11c-8 0 -13.2 0.8 -15.5 2.5
c-2.3 1.7 -4.2 5.8 -5.5 12.5c-1.3 4.7 -2.7 10.3 -4 17c-12 48.7 -34.8 92 -68.5 130
s-74.2 66.3 -121.5 85c-10 4 -16 7.7 -18 11c0 8.7 6 14.3 18 17c47.3 18.7 87.8 47
121.5 85s56.5 81.3 68.5 130c0.7 2 1.3 5 2 9s1.2 6.7 1.5 8c0.3 1.3 1 3.3 2 6
s2.2 4.5 3.5 5.5c1.3 1 3.3 1.8 6 2.5s6 1 10 1c14 0 21 -3.7 21 -11
c0 -2 -2 -10.3 -6 -25c-20 -79.3 -65 -146.7 -135 -202l-3 -3h399890z
M100 620v40h399900v-40z M0 241v40h399900v-40zM0 241v40h399900v-40z`,
  // rightarrowabovebar is mostly from glyph U+2192, KaTeX Main
  rightarrowabovebar: `M0 241v40h399891c-47.3 35.3-84 78-110 128-16.7 32
-27.7 63.7-33 95 0 1.3-.2 2.7-.5 4-.3 1.3-.5 2.3-.5 3 0 7.3 6.7 11 20 11 8 0
13.2-.8 15.5-2.5 2.3-1.7 4.2-5.5 5.5-11.5 2-13.3 5.7-27 11-41 14.7-44.7 39
-84.5 73-119.5s73.7-60.2 119-75.5c6-2 9-5.7 9-11s-3-9-9-11c-45.3-15.3-85-40.5
-119-75.5s-58.3-74.8-73-119.5c-4.7-14-8.3-27.3-11-40-1.3-6.7-3.2-10.8-5.5
-12.5-2.3-1.7-7.5-2.5-15.5-2.5-14 0-21 3.7-21 11 0 2 2 10.3 6 25 20.7 83.3 67
151.7 139 205zm96 379h399894v40H0zm0 0h399904v40H0z`,
  // The short left harpoon has 0.5em (i.e. 500 units) kern on the left end.
  // Ref from mhchem.sty: \rlap{\raisebox{-.22ex}{$\kern0.5em
  baraboveshortleftharpoon: `M507,435c-4,4,-6.3,8.7,-7,14c0,5.3,0.7,9,2,11
c1.3,2,5.3,5.3,12,10c90.7,54,156,130,196,228c3.3,10.7,6.3,16.3,9,17
c2,0.7,5,1,9,1c0,0,5,0,5,0c10.7,0,16.7,-2,18,-6c2,-2.7,1,-9.7,-3,-21
c-32,-87.3,-82.7,-157.7,-152,-211c0,0,-3,-3,-3,-3l399351,0l0,-40
c-398570,0,-399437,0,-399437,0z M593 435 v40 H399500 v-40z
M0 281 v-40 H399908 v40z M0 281 v-40 H399908 v40z`,
  rightharpoonaboveshortbar: `M0,241 l0,40c399126,0,399993,0,399993,0
c4.7,-4.7,7,-9.3,7,-14c0,-9.3,-3.7,-15.3,-11,-18c-92.7,-56.7,-159,-133.7,-199,
-231c-3.3,-9.3,-6,-14.7,-8,-16c-2,-1.3,-7,-2,-15,-2c-10.7,0,-16.7,2,-18,6
c-2,2.7,-1,9.7,3,21c15.3,42,36.7,81.8,64,119.5c27.3,37.7,58,69.2,92,94.5z
M0 241 v40 H399908 v-40z M0 475 v-40 H399500 v40z M0 475 v-40 H399500 v40z`,
  shortbaraboveleftharpoon: `M7,435c-4,4,-6.3,8.7,-7,14c0,5.3,0.7,9,2,11
c1.3,2,5.3,5.3,12,10c90.7,54,156,130,196,228c3.3,10.7,6.3,16.3,9,17c2,0.7,5,1,9,
1c0,0,5,0,5,0c10.7,0,16.7,-2,18,-6c2,-2.7,1,-9.7,-3,-21c-32,-87.3,-82.7,-157.7,
-152,-211c0,0,-3,-3,-3,-3l399907,0l0,-40c-399126,0,-399993,0,-399993,0z
M93 435 v40 H400000 v-40z M500 241 v40 H400000 v-40z M500 241 v40 H400000 v-40z`,
  shortrightharpoonabovebar: `M53,241l0,40c398570,0,399437,0,399437,0
c4.7,-4.7,7,-9.3,7,-14c0,-9.3,-3.7,-15.3,-11,-18c-92.7,-56.7,-159,-133.7,-199,
-231c-3.3,-9.3,-6,-14.7,-8,-16c-2,-1.3,-7,-2,-15,-2c-10.7,0,-16.7,2,-18,6
c-2,2.7,-1,9.7,3,21c15.3,42,36.7,81.8,64,119.5c27.3,37.7,58,69.2,92,94.5z
M500 241 v40 H399408 v-40z M500 435 v40 H400000 v-40z`
};
var svgGeometry = {
  path
};

/**
 * This node represents a document fragment, which contains elements, but when
 * placed into the DOM doesn't have any representation itself. It only contains
 * children and doesn't have any DOM node properties.
 */
class DocumentFragment {
  // HtmlDomNode
  // Never used; needed for satisfying interface.
  constructor(children) {
    this.children = void 0;
    this.classes = void 0;
    this.height = void 0;
    this.depth = void 0;
    this.maxFontSize = void 0;
    this.style = void 0;
    this.children = children;
    this.classes = [];
    this.height = 0;
    this.depth = 0;
    this.maxFontSize = 0;
    this.style = {};
  }

  hasClass(className) {
    return utils.contains(this.classes, className);
  }
  /** Convert the fragment into a node. */


  toNode() {
    const frag = document.createDocumentFragment();

    for (let i = 0; i < this.children.length; i++) {
      frag.appendChild(this.children[i].toNode());
    }

    return frag;
  }
  /** Convert the fragment into HTML markup. */


  toMarkup() {
    let markup = ""; // Simply concatenate the markup for the children together.

    for (let i = 0; i < this.children.length; i++) {
      markup += this.children[i].toMarkup();
    }

    return markup;
  }
  /**
   * Converts the math node into a string, similar to innerText. Applies to
   * MathDomNode's only.
   */


  toText() {
    // To avoid this, we would subclass documentFragment separately for
    // MathML, but polyfills for subclassing is expensive per PR 1469.
    // $FlowFixMe: Only works for ChildType = MathDomNode.
    const toText = child => child.toText();

    return this.children.map(toText).join("");
  }

}

/**
 * These objects store the data about the DOM nodes we create, as well as some
 * extra data. They can then be transformed into real DOM nodes with the
 * `toNode` function or HTML markup using `toMarkup`. They are useful for both
 * storing extra properties on the nodes, as well as providing a way to easily
 * work with the DOM.
 *
 * Similar functions for working with MathML nodes exist in mathMLTree.js.
 *
 * TODO: refactor `span` and `anchor` into common superclass when
 * target environments support class inheritance
 */

/**
 * Create an HTML className based on a list of classes. In addition to joining
 * with spaces, we also remove empty classes.
 */
const createClass = function createClass(classes) {
  return classes.filter(cls => cls).join(" ");
};

const initNode = function initNode(classes, options, style) {
  this.classes = classes || [];
  this.attributes = {};
  this.height = 0;
  this.depth = 0;
  this.maxFontSize = 0;
  this.style = style || {};

  if (options) {
    if (options.style.isTight()) {
      this.classes.push("mtight");
    }

    const color = options.getColor();

    if (color) {
      this.style.color = color;
    }
  }
};
/**
 * Convert into an HTML node
 */


const toNode = function toNode(tagName) {
  const node = document.createElement(tagName); // Apply the class

  node.className = createClass(this.classes); // Apply inline styles

  for (const style in this.style) {
    if (this.style.hasOwnProperty(style)) {
      // $FlowFixMe Flow doesn't seem to understand span.style's type.
      node.style[style] = this.style[style];
    }
  } // Apply attributes


  for (const attr in this.attributes) {
    if (this.attributes.hasOwnProperty(attr)) {
      node.setAttribute(attr, this.attributes[attr]);
    }
  } // Append the children, also as HTML nodes


  for (let i = 0; i < this.children.length; i++) {
    node.appendChild(this.children[i].toNode());
  }

  return node;
};
/**
 * Convert into an HTML markup string
 */


const toMarkup = function toMarkup(tagName) {
  let markup = `<${tagName}`; // Add the class

  if (this.classes.length) {
    markup += ` class="${utils.escape(createClass(this.classes))}"`;
  }

  let styles = ""; // Add the styles, after hyphenation

  for (const style in this.style) {
    if (this.style.hasOwnProperty(style)) {
      styles += `${utils.hyphenate(style)}:${this.style[style]};`;
    }
  }

  if (styles) {
    markup += ` style="${utils.escape(styles)}"`;
  } // Add the attributes


  for (const attr in this.attributes) {
    if (this.attributes.hasOwnProperty(attr)) {
      markup += ` ${attr}="${utils.escape(this.attributes[attr])}"`;
    }
  }

  markup += ">"; // Add the markup of the children, also as markup

  for (let i = 0; i < this.children.length; i++) {
    markup += this.children[i].toMarkup();
  }

  markup += `</${tagName}>`;
  return markup;
}; // Making the type below exact with all optional fields doesn't work due to
// - https://github.com/facebook/flow/issues/4582
// - https://github.com/facebook/flow/issues/5688
// However, since *all* fields are optional, $Shape<> works as suggested in 5688
// above.
// This type does not include all CSS properties. Additional properties should
// be added as needed.


/**
 * This node represents a span node, with a className, a list of children, and
 * an inline style. It also contains information about its height, depth, and
 * maxFontSize.
 *
 * Represents two types with different uses: SvgSpan to wrap an SVG and DomSpan
 * otherwise. This typesafety is important when HTML builders access a span's
 * children.
 */
class Span {
  constructor(classes, children, options, style) {
    this.children = void 0;
    this.attributes = void 0;
    this.classes = void 0;
    this.height = void 0;
    this.depth = void 0;
    this.width = void 0;
    this.maxFontSize = void 0;
    this.style = void 0;
    initNode.call(this, classes, options, style);
    this.children = children || [];
  }
  /**
   * Sets an arbitrary attribute on the span. Warning: use this wisely. Not
   * all browsers support attributes the same, and having too many custom
   * attributes is probably bad.
   */


  setAttribute(attribute, value) {
    this.attributes[attribute] = value;
  }

  hasClass(className) {
    return utils.contains(this.classes, className);
  }

  toNode() {
    return toNode.call(this, "span");
  }

  toMarkup() {
    return toMarkup.call(this, "span");
  }

}
/**
 * This node represents an anchor (<a>) element with a hyperlink.  See `span`
 * for further details.
 */

class Anchor {
  constructor(href, classes, children, options) {
    this.children = void 0;
    this.attributes = void 0;
    this.classes = void 0;
    this.height = void 0;
    this.depth = void 0;
    this.maxFontSize = void 0;
    this.style = void 0;
    initNode.call(this, classes, options);
    this.children = children || [];
    this.setAttribute('href', href);
  }

  setAttribute(attribute, value) {
    this.attributes[attribute] = value;
  }

  hasClass(className) {
    return utils.contains(this.classes, className);
  }

  toNode() {
    return toNode.call(this, "a");
  }

  toMarkup() {
    return toMarkup.call(this, "a");
  }

}
const iCombinations = {
  'î': '\u0131\u0302',
  'ï': '\u0131\u0308',
  'í': '\u0131\u0301',
  // 'ī': '\u0131\u0304', // enable when we add Extended Latin
  'ì': '\u0131\u0300'
};
/**
 * A symbol node contains information about a single symbol. It either renders
 * to a single text node, or a span with a single text node in it, depending on
 * whether it has CSS classes, styles, or needs italic correction.
 */

class SymbolNode {
  constructor(text, height, depth, italic, skew, width, classes, style) {
    this.text = void 0;
    this.height = void 0;
    this.depth = void 0;
    this.italic = void 0;
    this.skew = void 0;
    this.width = void 0;
    this.maxFontSize = void 0;
    this.classes = void 0;
    this.style = void 0;
    this.text = text;
    this.height = height || 0;
    this.depth = depth || 0;
    this.italic = italic || 0;
    this.skew = skew || 0;
    this.width = width || 0;
    this.classes = classes || [];
    this.style = style || {};
    this.maxFontSize = 0; // Mark text from non-Latin scripts with specific classes so that we
    // can specify which fonts to use.  This allows us to render these
    // characters with a serif font in situations where the browser would
    // either default to a sans serif or render a placeholder character.
    // We use CSS class names like cjk_fallback, hangul_fallback and
    // brahmic_fallback. See ./unicodeScripts.js for the set of possible
    // script names

    const script = scriptFromCodepoint(this.text.charCodeAt(0));

    if (script) {
      this.classes.push(script + "_fallback");
    }

    if (/[îïíì]/.test(this.text)) {
      // add ī when we add Extended Latin
      this.text = iCombinations[this.text];
    }
  }

  hasClass(className) {
    return utils.contains(this.classes, className);
  }
  /**
   * Creates a text node or span from a symbol node. Note that a span is only
   * created if it is needed.
   */


  toNode() {
    const node = document.createTextNode(this.text);
    let span = null;

    if (this.italic > 0) {
      span = document.createElement("span");
      span.style.marginRight = this.italic + "em";
    }

    if (this.classes.length > 0) {
      span = span || document.createElement("span");
      span.className = createClass(this.classes);
    }

    for (const style in this.style) {
      if (this.style.hasOwnProperty(style)) {
        span = span || document.createElement("span"); // $FlowFixMe Flow doesn't seem to understand span.style's type.

        span.style[style] = this.style[style];
      }
    }

    if (span) {
      span.appendChild(node);
      return span;
    } else {
      return node;
    }
  }
  /**
   * Creates markup for a symbol node.
   */


  toMarkup() {
    // TODO(alpert): More duplication than I'd like from
    // span.prototype.toMarkup and symbolNode.prototype.toNode...
    let needsSpan = false;
    let markup = "<span";

    if (this.classes.length) {
      needsSpan = true;
      markup += " class=\"";
      markup += utils.escape(createClass(this.classes));
      markup += "\"";
    }

    let styles = "";

    if (this.italic > 0) {
      styles += "margin-right:" + this.italic + "em;";
    }

    for (const style in this.style) {
      if (this.style.hasOwnProperty(style)) {
        styles += utils.hyphenate(style) + ":" + this.style[style] + ";";
      }
    }

    if (styles) {
      needsSpan = true;
      markup += " style=\"" + utils.escape(styles) + "\"";
    }

    const escaped = utils.escape(this.text);

    if (needsSpan) {
      markup += ">";
      markup += escaped;
      markup += "</span>";
      return markup;
    } else {
      return escaped;
    }
  }

}
/**
 * SVG nodes are used to render stretchy wide elements.
 */

class SvgNode {
  constructor(children, attributes) {
    this.children = void 0;
    this.attributes = void 0;
    this.children = children || [];
    this.attributes = attributes || {};
  }

  toNode() {
    const svgNS = "http://www.w3.org/2000/svg";
    const node = document.createElementNS(svgNS, "svg"); // Apply attributes

    for (const attr in this.attributes) {
      if (Object.prototype.hasOwnProperty.call(this.attributes, attr)) {
        node.setAttribute(attr, this.attributes[attr]);
      }
    }

    for (let i = 0; i < this.children.length; i++) {
      node.appendChild(this.children[i].toNode());
    }

    return node;
  }

  toMarkup() {
    let markup = "<svg"; // Apply attributes

    for (const attr in this.attributes) {
      if (Object.prototype.hasOwnProperty.call(this.attributes, attr)) {
        markup += ` ${attr}='${this.attributes[attr]}'`;
      }
    }

    markup += ">";

    for (let i = 0; i < this.children.length; i++) {
      markup += this.children[i].toMarkup();
    }

    markup += "</svg>";
    return markup;
  }

}
class PathNode {
  constructor(pathName, alternate) {
    this.pathName = void 0;
    this.alternate = void 0;
    this.pathName = pathName;
    this.alternate = alternate; // Used only for tall \sqrt
  }

  toNode() {
    const svgNS = "http://www.w3.org/2000/svg";
    const node = document.createElementNS(svgNS, "path");

    if (this.alternate) {
      node.setAttribute("d", this.alternate);
    } else {
      node.setAttribute("d", svgGeometry.path[this.pathName]);
    }

    return node;
  }

  toMarkup() {
    if (this.alternate) {
      return `<path d='${this.alternate}'/>`;
    } else {
      return `<path d='${svgGeometry.path[this.pathName]}'/>`;
    }
  }

}
class LineNode {
  constructor(attributes) {
    this.attributes = void 0;
    this.attributes = attributes || {};
  }

  toNode() {
    const svgNS = "http://www.w3.org/2000/svg";
    const node = document.createElementNS(svgNS, "line"); // Apply attributes

    for (const attr in this.attributes) {
      if (Object.prototype.hasOwnProperty.call(this.attributes, attr)) {
        node.setAttribute(attr, this.attributes[attr]);
      }
    }

    return node;
  }

  toMarkup() {
    let markup = "<line";

    for (const attr in this.attributes) {
      if (Object.prototype.hasOwnProperty.call(this.attributes, attr)) {
        markup += ` ${attr}='${this.attributes[attr]}'`;
      }
    }

    markup += "/>";
    return markup;
  }

}
function assertSymbolDomNode(group) {
  if (group instanceof SymbolNode) {
    return group;
  } else {
    throw new Error(`Expected symbolNode but got ${String(group)}.`);
  }
}
function assertSpan(group) {
  if (group instanceof Span) {
    return group;
  } else {
    throw new Error(`Expected span<HtmlDomNode> but got ${String(group)}.`);
  }
}

// This file is GENERATED by buildMetrics.sh. DO NOT MODIFY.
var metricMap = {
  "AMS-Regular": {
    "65": [0, 0.68889, 0, 0, 0.72222],
    "66": [0, 0.68889, 0, 0, 0.66667],
    "67": [0, 0.68889, 0, 0, 0.72222],
    "68": [0, 0.68889, 0, 0, 0.72222],
    "69": [0, 0.68889, 0, 0, 0.66667],
    "70": [0, 0.68889, 0, 0, 0.61111],
    "71": [0, 0.68889, 0, 0, 0.77778],
    "72": [0, 0.68889, 0, 0, 0.77778],
    "73": [0, 0.68889, 0, 0, 0.38889],
    "74": [0.16667, 0.68889, 0, 0, 0.5],
    "75": [0, 0.68889, 0, 0, 0.77778],
    "76": [0, 0.68889, 0, 0, 0.66667],
    "77": [0, 0.68889, 0, 0, 0.94445],
    "78": [0, 0.68889, 0, 0, 0.72222],
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    "80": [0, 0.68889, 0, 0, 0.61111],
    "81": [0.16667, 0.68889, 0, 0, 0.77778],
    "82": [0, 0.68889, 0, 0, 0.72222],
    "83": [0, 0.68889, 0, 0, 0.55556],
    "84": [0, 0.68889, 0, 0, 0.66667],
    "85": [0, 0.68889, 0, 0, 0.72222],
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    "89": [0, 0.68889, 0, 0, 0.72222],
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    "771": [0, 0.9, 0, 0, 2.33334],
    "989": [0.08167, 0.58167, 0, 0, 0.77778],
    "1008": [0, 0.43056, 0.04028, 0, 0.66667],
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    "8463": [0, 0.68889, 0, 0, 0.54028],
    "8487": [0, 0.68889, 0, 0, 0.72222],
    "8498": [0, 0.68889, 0, 0, 0.55556],
    "8502": [0, 0.68889, 0, 0, 0.66667],
    "8503": [0, 0.68889, 0, 0, 0.44445],
    "8504": [0, 0.68889, 0, 0, 0.66667],
    "8513": [0, 0.68889, 0, 0, 0.63889],
    "8592": [-0.03598, 0.46402, 0, 0, 0.5],
    "8594": [-0.03598, 0.46402, 0, 0, 0.5],
    "8602": [-0.13313, 0.36687, 0, 0, 1.0],
    "8603": [-0.13313, 0.36687, 0, 0, 1.0],
    "8606": [0.01354, 0.52239, 0, 0, 1.0],
    "8608": [0.01354, 0.52239, 0, 0, 1.0],
    "8610": [0.01354, 0.52239, 0, 0, 1.11111],
    "8611": [0.01354, 0.52239, 0, 0, 1.11111],
    "8619": [0, 0.54986, 0, 0, 1.0],
    "8620": [0, 0.54986, 0, 0, 1.0],
    "8621": [-0.13313, 0.37788, 0, 0, 1.38889],
    "8622": [-0.13313, 0.36687, 0, 0, 1.0],
    "8624": [0, 0.69224, 0, 0, 0.5],
    "8625": [0, 0.69224, 0, 0, 0.5],
    "8630": [0, 0.43056, 0, 0, 1.0],
    "8631": [0, 0.43056, 0, 0, 1.0],
    "8634": [0.08198, 0.58198, 0, 0, 0.77778],
    "8635": [0.08198, 0.58198, 0, 0, 0.77778],
    "8638": [0.19444, 0.69224, 0, 0, 0.41667],
    "8639": [0.19444, 0.69224, 0, 0, 0.41667],
    "8642": [0.19444, 0.69224, 0, 0, 0.41667],
    "8643": [0.19444, 0.69224, 0, 0, 0.41667],
    "8644": [0.1808, 0.675, 0, 0, 1.0],
    "8646": [0.1808, 0.675, 0, 0, 1.0],
    "8647": [0.1808, 0.675, 0, 0, 1.0],
    "8648": [0.19444, 0.69224, 0, 0, 0.83334],
    "8649": [0.1808, 0.675, 0, 0, 1.0],
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    "51": [0, 0.61111, 0, 0, 0.525],
    "52": [0, 0.61111, 0, 0, 0.525],
    "53": [0, 0.61111, 0, 0, 0.525],
    "54": [0, 0.61111, 0, 0, 0.525],
    "55": [0, 0.61111, 0, 0, 0.525],
    "56": [0, 0.61111, 0, 0, 0.525],
    "57": [0, 0.61111, 0, 0, 0.525],
    "58": [0, 0.43056, 0, 0, 0.525],
    "59": [0.13889, 0.43056, 0, 0, 0.525],
    "60": [-0.05556, 0.55556, 0, 0, 0.525],
    "61": [-0.19549, 0.41562, 0, 0, 0.525],
    "62": [-0.05556, 0.55556, 0, 0, 0.525],
    "63": [0, 0.61111, 0, 0, 0.525],
    "64": [0, 0.61111, 0, 0, 0.525],
    "65": [0, 0.61111, 0, 0, 0.525],
    "66": [0, 0.61111, 0, 0, 0.525],
    "67": [0, 0.61111, 0, 0, 0.525],
    "68": [0, 0.61111, 0, 0, 0.525],
    "69": [0, 0.61111, 0, 0, 0.525],
    "70": [0, 0.61111, 0, 0, 0.525],
    "71": [0, 0.61111, 0, 0, 0.525],
    "72": [0, 0.61111, 0, 0, 0.525],
    "73": [0, 0.61111, 0, 0, 0.525],
    "74": [0, 0.61111, 0, 0, 0.525],
    "75": [0, 0.61111, 0, 0, 0.525],
    "76": [0, 0.61111, 0, 0, 0.525],
    "77": [0, 0.61111, 0, 0, 0.525],
    "78": [0, 0.61111, 0, 0, 0.525],
    "79": [0, 0.61111, 0, 0, 0.525],
    "80": [0, 0.61111, 0, 0, 0.525],
    "81": [0.13889, 0.61111, 0, 0, 0.525],
    "82": [0, 0.61111, 0, 0, 0.525],
    "83": [0, 0.61111, 0, 0, 0.525],
    "84": [0, 0.61111, 0, 0, 0.525],
    "85": [0, 0.61111, 0, 0, 0.525],
    "86": [0, 0.61111, 0, 0, 0.525],
    "87": [0, 0.61111, 0, 0, 0.525],
    "88": [0, 0.61111, 0, 0, 0.525],
    "89": [0, 0.61111, 0, 0, 0.525],
    "90": [0, 0.61111, 0, 0, 0.525],
    "91": [0.08333, 0.69444, 0, 0, 0.525],
    "92": [0.08333, 0.69444, 0, 0, 0.525],
    "93": [0.08333, 0.69444, 0, 0, 0.525],
    "94": [0, 0.61111, 0, 0, 0.525],
    "95": [0.09514, 0, 0, 0, 0.525],
    "96": [0, 0.61111, 0, 0, 0.525],
    "97": [0, 0.43056, 0, 0, 0.525],
    "98": [0, 0.61111, 0, 0, 0.525],
    "99": [0, 0.43056, 0, 0, 0.525],
    "100": [0, 0.61111, 0, 0, 0.525],
    "101": [0, 0.43056, 0, 0, 0.525],
    "102": [0, 0.61111, 0, 0, 0.525],
    "103": [0.22222, 0.43056, 0, 0, 0.525],
    "104": [0, 0.61111, 0, 0, 0.525],
    "105": [0, 0.61111, 0, 0, 0.525],
    "106": [0.22222, 0.61111, 0, 0, 0.525],
    "107": [0, 0.61111, 0, 0, 0.525],
    "108": [0, 0.61111, 0, 0, 0.525],
    "109": [0, 0.43056, 0, 0, 0.525],
    "110": [0, 0.43056, 0, 0, 0.525],
    "111": [0, 0.43056, 0, 0, 0.525],
    "112": [0.22222, 0.43056, 0, 0, 0.525],
    "113": [0.22222, 0.43056, 0, 0, 0.525],
    "114": [0, 0.43056, 0, 0, 0.525],
    "115": [0, 0.43056, 0, 0, 0.525],
    "116": [0, 0.55358, 0, 0, 0.525],
    "117": [0, 0.43056, 0, 0, 0.525],
    "118": [0, 0.43056, 0, 0, 0.525],
    "119": [0, 0.43056, 0, 0, 0.525],
    "120": [0, 0.43056, 0, 0, 0.525],
    "121": [0.22222, 0.43056, 0, 0, 0.525],
    "122": [0, 0.43056, 0, 0, 0.525],
    "123": [0.08333, 0.69444, 0, 0, 0.525],
    "124": [0.08333, 0.69444, 0, 0, 0.525],
    "125": [0.08333, 0.69444, 0, 0, 0.525],
    "126": [0, 0.61111, 0, 0, 0.525],
    "127": [0, 0.61111, 0, 0, 0.525],
    "160": [0, 0, 0, 0, 0.525],
    "176": [0, 0.61111, 0, 0, 0.525],
    "184": [0.19445, 0, 0, 0, 0.525],
    "305": [0, 0.43056, 0, 0, 0.525],
    "567": [0.22222, 0.43056, 0, 0, 0.525],
    "711": [0, 0.56597, 0, 0, 0.525],
    "713": [0, 0.56555, 0, 0, 0.525],
    "714": [0, 0.61111, 0, 0, 0.525],
    "715": [0, 0.61111, 0, 0, 0.525],
    "728": [0, 0.61111, 0, 0, 0.525],
    "730": [0, 0.61111, 0, 0, 0.525],
    "770": [0, 0.61111, 0, 0, 0.525],
    "771": [0, 0.61111, 0, 0, 0.525],
    "776": [0, 0.61111, 0, 0, 0.525],
    "915": [0, 0.61111, 0, 0, 0.525],
    "916": [0, 0.61111, 0, 0, 0.525],
    "920": [0, 0.61111, 0, 0, 0.525],
    "923": [0, 0.61111, 0, 0, 0.525],
    "926": [0, 0.61111, 0, 0, 0.525],
    "928": [0, 0.61111, 0, 0, 0.525],
    "931": [0, 0.61111, 0, 0, 0.525],
    "933": [0, 0.61111, 0, 0, 0.525],
    "934": [0, 0.61111, 0, 0, 0.525],
    "936": [0, 0.61111, 0, 0, 0.525],
    "937": [0, 0.61111, 0, 0, 0.525],
    "8216": [0, 0.61111, 0, 0, 0.525],
    "8217": [0, 0.61111, 0, 0, 0.525],
    "8242": [0, 0.61111, 0, 0, 0.525],
    "9251": [0.11111, 0.21944, 0, 0, 0.525]
  }
};

/**
 * This file contains metrics regarding fonts and individual symbols. The sigma
 * and xi variables, as well as the metricMap map contain data extracted from
 * TeX, TeX font metrics, and the TTF files. These data are then exposed via the
 * `metrics` variable and the getCharacterMetrics function.
 */
// In TeX, there are actually three sets of dimensions, one for each of
// textstyle (size index 5 and higher: >=9pt), scriptstyle (size index 3 and 4:
// 7-8pt), and scriptscriptstyle (size index 1 and 2: 5-6pt).  These are
// provided in the the arrays below, in that order.
//
// The font metrics are stored in fonts cmsy10, cmsy7, and cmsy5 respsectively.
// This was determined by running the following script:
//
//     latex -interaction=nonstopmode \
//     '\documentclass{article}\usepackage{amsmath}\begin{document}' \
//     '$a$ \expandafter\show\the\textfont2' \
//     '\expandafter\show\the\scriptfont2' \
//     '\expandafter\show\the\scriptscriptfont2' \
//     '\stop'
//
// The metrics themselves were retreived using the following commands:
//
//     tftopl cmsy10
//     tftopl cmsy7
//     tftopl cmsy5
//
// The output of each of these commands is quite lengthy.  The only part we
// care about is the FONTDIMEN section. Each value is measured in EMs.
const sigmasAndXis = {
  slant: [0.250, 0.250, 0.250],
  // sigma1
  space: [0.000, 0.000, 0.000],
  // sigma2
  stretch: [0.000, 0.000, 0.000],
  // sigma3
  shrink: [0.000, 0.000, 0.000],
  // sigma4
  xHeight: [0.431, 0.431, 0.431],
  // sigma5
  quad: [1.000, 1.171, 1.472],
  // sigma6
  extraSpace: [0.000, 0.000, 0.000],
  // sigma7
  num1: [0.677, 0.732, 0.925],
  // sigma8
  num2: [0.394, 0.384, 0.387],
  // sigma9
  num3: [0.444, 0.471, 0.504],
  // sigma10
  denom1: [0.686, 0.752, 1.025],
  // sigma11
  denom2: [0.345, 0.344, 0.532],
  // sigma12
  sup1: [0.413, 0.503, 0.504],
  // sigma13
  sup2: [0.363, 0.431, 0.404],
  // sigma14
  sup3: [0.289, 0.286, 0.294],
  // sigma15
  sub1: [0.150, 0.143, 0.200],
  // sigma16
  sub2: [0.247, 0.286, 0.400],
  // sigma17
  supDrop: [0.386, 0.353, 0.494],
  // sigma18
  subDrop: [0.050, 0.071, 0.100],
  // sigma19
  delim1: [2.390, 1.700, 1.980],
  // sigma20
  delim2: [1.010, 1.157, 1.420],
  // sigma21
  axisHeight: [0.250, 0.250, 0.250],
  // sigma22
  // These font metrics are extracted from TeX by using tftopl on cmex10.tfm;
  // they correspond to the font parameters of the extension fonts (family 3).
  // See the TeXbook, page 441. In AMSTeX, the extension fonts scale; to
  // match cmex7, we'd use cmex7.tfm values for script and scriptscript
  // values.
  defaultRuleThickness: [0.04, 0.049, 0.049],
  // xi8; cmex7: 0.049
  bigOpSpacing1: [0.111, 0.111, 0.111],
  // xi9
  bigOpSpacing2: [0.166, 0.166, 0.166],
  // xi10
  bigOpSpacing3: [0.2, 0.2, 0.2],
  // xi11
  bigOpSpacing4: [0.6, 0.611, 0.611],
  // xi12; cmex7: 0.611
  bigOpSpacing5: [0.1, 0.143, 0.143],
  // xi13; cmex7: 0.143
  // The \sqrt rule width is taken from the height of the surd character.
  // Since we use the same font at all sizes, this thickness doesn't scale.
  sqrtRuleThickness: [0.04, 0.04, 0.04],
  // This value determines how large a pt is, for metrics which are defined
  // in terms of pts.
  // This value is also used in katex.less; if you change it make sure the
  // values match.
  ptPerEm: [10.0, 10.0, 10.0],
  // The space between adjacent `|` columns in an array definition. From
  // `\showthe\doublerulesep` in LaTeX. Equals 2.0 / ptPerEm.
  doubleRuleSep: [0.2, 0.2, 0.2]
}; // This map contains a mapping from font name and character code to character
// should have Latin-1 and Cyrillic characters, but may not depending on the
// operating system.  The metrics do not account for extra height from the
// accents.  In the case of Cyrillic characters which have both ascenders and
// descenders we prefer approximations with ascenders, primarily to prevent
// the fraction bar or root line from intersecting the glyph.
// TODO(kevinb) allow union of multiple glyph metrics for better accuracy.

const extraCharacterMap = {
  // Latin-1
  'Å': 'A',
  'Ç': 'C',
  'Ð': 'D',
  'Þ': 'o',
  'å': 'a',
  'ç': 'c',
  'ð': 'd',
  'þ': 'o',
  // Cyrillic
  'А': 'A',
  'Б': 'B',
  'В': 'B',
  'Г': 'F',
  'Д': 'A',
  'Е': 'E',
  'Ж': 'K',
  'З': '3',
  'И': 'N',
  'Й': 'N',
  'К': 'K',
  'Л': 'N',
  'М': 'M',
  'Н': 'H',
  'О': 'O',
  'П': 'N',
  'Р': 'P',
  'С': 'C',
  'Т': 'T',
  'У': 'y',
  'Ф': 'O',
  'Х': 'X',
  'Ц': 'U',
  'Ч': 'h',
  'Ш': 'W',
  'Щ': 'W',
  'Ъ': 'B',
  'Ы': 'X',
  'Ь': 'B',
  'Э': '3',
  'Ю': 'X',
  'Я': 'R',
  'а': 'a',
  'б': 'b',
  'в': 'a',
  'г': 'r',
  'д': 'y',
  'е': 'e',
  'ж': 'm',
  'з': 'e',
  'и': 'n',
  'й': 'n',
  'к': 'n',
  'л': 'n',
  'м': 'm',
  'н': 'n',
  'о': 'o',
  'п': 'n',
  'р': 'p',
  'с': 'c',
  'т': 'o',
  'у': 'y',
  'ф': 'b',
  'х': 'x',
  'ц': 'n',
  'ч': 'n',
  'ш': 'w',
  'щ': 'w',
  'ъ': 'a',
  'ы': 'm',
  'ь': 'a',
  'э': 'e',
  'ю': 'm',
  'я': 'r'
};

/**
 * This function adds new font metrics to default metricMap
 * It can also override existing metrics
 */
function setFontMetrics(fontName, metrics) {
  metricMap[fontName] = metrics;
}
/**
 * This function is a convenience function for looking up information in the
 * metricMap table. It takes a character as a string, and a font.
 *
 * Note: the `width` property may be undefined if fontMetricsData.js wasn't
 * built using `Make extended_metrics`.
 */

function getCharacterMetrics(character, font, mode) {
  if (!metricMap[font]) {
    throw new Error(`Font metrics not found for font: ${font}.`);
  }

  let ch = character.charCodeAt(0);

  if (character[0] in extraCharacterMap) {
    ch = extraCharacterMap[character[0]].charCodeAt(0);
  }

  let metrics = metricMap[font][ch];

  if (!metrics && mode === 'text') {
    // We don't typically have font metrics for Asian scripts.
    // But since we support them in text mode, we need to return
    // some sort of metrics.
    // So if the character is in a script we support but we
    // don't have metrics for it, just use the metrics for
    // the Latin capital letter M. This is close enough because
    // we (currently) only care about the height of the glpyh
    // not its width.
    if (supportedCodepoint(ch)) {
      metrics = metricMap[font][77]; // 77 is the charcode for 'M'
    }
  }

  if (metrics) {
    return {
      depth: metrics[0],
      height: metrics[1],
      italic: metrics[2],
      skew: metrics[3],
      width: metrics[4]
    };
  }
}
const fontMetricsBySizeIndex = {};
/**
 * Get the font metrics for a given size.
 */

function getGlobalMetrics(size) {
  let sizeIndex;

  if (size >= 5) {
    sizeIndex = 0;
  } else if (size >= 3) {
    sizeIndex = 1;
  } else {
    sizeIndex = 2;
  }

  if (!fontMetricsBySizeIndex[sizeIndex]) {
    const metrics = fontMetricsBySizeIndex[sizeIndex] = {
      cssEmPerMu: sigmasAndXis.quad[sizeIndex] / 18
    };

    for (const key in sigmasAndXis) {
      if (sigmasAndXis.hasOwnProperty(key)) {
        metrics[key] = sigmasAndXis[key][sizeIndex];
      }
    }
  }

  return fontMetricsBySizeIndex[sizeIndex];
}

/**
 * This file holds a list of all no-argument functions and single-character
 * symbols (like 'a' or ';').
 *
 * For each of the symbols, there are three properties they can have:
 * - font (required): the font to be used for this symbol. Either "main" (the
     normal font), or "ams" (the ams fonts).
 * - group (required): the ParseNode group type the symbol should have (i.e.
     "textord", "mathord", etc).
     See https://github.com/KaTeX/KaTeX/wiki/Examining-TeX#group-types
 * - replace: the character that this symbol or function should be
 *   replaced with (i.e. "\phi" has a replace value of "\u03d5", the phi
 *   character in the main font).
 *
 * The outermost map in the table indicates what mode the symbols should be
 * accepted in (e.g. "math" or "text").
 */
// Some of these have a "-token" suffix since these are also used as `ParseNode`
// types for raw text tokens, and we want to avoid conflicts with higher-level
// `ParseNode` types. These `ParseNode`s are constructed within `Parser` by
// looking up the `symbols` map.
const ATOMS = {
  "bin": 1,
  "close": 1,
  "inner": 1,
  "open": 1,
  "punct": 1,
  "rel": 1
};
const NON_ATOMS = {
  "accent-token": 1,
  "mathord": 1,
  "op-token": 1,
  "spacing": 1,
  "textord": 1
};
const symbols = {
  "math": {},
  "text": {}
};
/** `acceptUnicodeChar = true` is only applicable if `replace` is set. */

function defineSymbol(mode, font, group, replace, name, acceptUnicodeChar) {
  symbols[mode][name] = {
    font,
    group,
    replace
  };

  if (acceptUnicodeChar && replace) {
    symbols[mode][replace] = symbols[mode][name];
  }
} // Some abbreviations for commonly used strings.
// This helps minify the code, and also spotting typos using jshint.
// modes:

const math = "math";
const text$1 = "text"; // fonts:

const main = "main";
const ams = "ams"; // groups:

const accent = "accent-token";
const bin = "bin";
const close = "close";
const inner = "inner";
const mathord = "mathord";
const op = "op-token";
const open = "open";
const punct = "punct";
const rel = "rel";
const spacing = "spacing";
const textord = "textord"; // Now comes the symbol table
// Relation Symbols

defineSymbol(math, main, rel, "\u2261", "\\equiv", true);
defineSymbol(math, main, rel, "\u227a", "\\prec", true);
defineSymbol(math, main, rel, "\u227b", "\\succ", true);
defineSymbol(math, main, rel, "\u223c", "\\sim", true);
defineSymbol(math, main, rel, "\u22a5", "\\perp");
defineSymbol(math, main, rel, "\u2aaf", "\\preceq", true);
defineSymbol(math, main, rel, "\u2ab0", "\\succeq", true);
defineSymbol(math, main, rel, "\u2243", "\\simeq", true);
defineSymbol(math, main, rel, "\u2223", "\\mid", true);
defineSymbol(math, main, rel, "\u226a", "\\ll", true);
defineSymbol(math, main, rel, "\u226b", "\\gg", true);
defineSymbol(math, main, rel, "\u224d", "\\asymp", true);
defineSymbol(math, main, rel, "\u2225", "\\parallel");
defineSymbol(math, main, rel, "\u22c8", "\\bowtie", true);
defineSymbol(math, main, rel, "\u2323", "\\smile", true);
defineSymbol(math, main, rel, "\u2291", "\\sqsubseteq", true);
defineSymbol(math, main, rel, "\u2292", "\\sqsupseteq", true);
defineSymbol(math, main, rel, "\u2250", "\\doteq", true);
defineSymbol(math, main, rel, "\u2322", "\\frown", true);
defineSymbol(math, main, rel, "\u220b", "\\ni", true);
defineSymbol(math, main, rel, "\u221d", "\\propto", true);
defineSymbol(math, main, rel, "\u22a2", "\\vdash", true);
defineSymbol(math, main, rel, "\u22a3", "\\dashv", true);
defineSymbol(math, main, rel, "\u220b", "\\owns"); // Punctuation

defineSymbol(math, main, punct, "\u002e", "\\ldotp");
defineSymbol(math, main, punct, "\u22c5", "\\cdotp"); // Misc Symbols

defineSymbol(math, main, textord, "\u0023", "\\#");
defineSymbol(text$1, main, textord, "\u0023", "\\#");
defineSymbol(math, main, textord, "\u0026", "\\&");
defineSymbol(text$1, main, textord, "\u0026", "\\&");
defineSymbol(math, main, textord, "\u2135", "\\aleph", true);
defineSymbol(math, main, textord, "\u2200", "\\forall", true);
defineSymbol(math, main, textord, "\u210f", "\\hbar", true);
defineSymbol(math, main, textord, "\u2203", "\\exists", true);
defineSymbol(math, main, textord, "\u2207", "\\nabla", true);
defineSymbol(math, main, textord, "\u266d", "\\flat", true);
defineSymbol(math, main, textord, "\u2113", "\\ell", true);
defineSymbol(math, main, textord, "\u266e", "\\natural", true);
defineSymbol(math, main, textord, "\u2663", "\\clubsuit", true);
defineSymbol(math, main, textord, "\u2118", "\\wp", true);
defineSymbol(math, main, textord, "\u266f", "\\sharp", true);
defineSymbol(math, main, textord, "\u2662", "\\diamondsuit", true);
defineSymbol(math, main, textord, "\u211c", "\\Re", true);
defineSymbol(math, main, textord, "\u2661", "\\heartsuit", true);
defineSymbol(math, main, textord, "\u2111", "\\Im", true);
defineSymbol(math, main, textord, "\u2660", "\\spadesuit", true);
defineSymbol(text$1, main, textord, "\u00a7", "\\S", true);
defineSymbol(text$1, main, textord, "\u00b6", "\\P", true); // Math and Text

defineSymbol(math, main, textord, "\u2020", "\\dag");
defineSymbol(text$1, main, textord, "\u2020", "\\dag");
defineSymbol(text$1, main, textord, "\u2020", "\\textdagger");
defineSymbol(math, main, textord, "\u2021", "\\ddag");
defineSymbol(text$1, main, textord, "\u2021", "\\ddag");
defineSymbol(text$1, main, textord, "\u2021", "\\textdaggerdbl"); // Large Delimiters

defineSymbol(math, main, close, "\u23b1", "\\rmoustache", true);
defineSymbol(math, main, open, "\u23b0", "\\lmoustache", true);
defineSymbol(math, main, close, "\u27ef", "\\rgroup", true);
defineSymbol(math, main, open, "\u27ee", "\\lgroup", true); // Binary Operators

defineSymbol(math, main, bin, "\u2213", "\\mp", true);
defineSymbol(math, main, bin, "\u2296", "\\ominus", true);
defineSymbol(math, main, bin, "\u228e", "\\uplus", true);
defineSymbol(math, main, bin, "\u2293", "\\sqcap", true);
defineSymbol(math, main, bin, "\u2217", "\\ast");
defineSymbol(math, main, bin, "\u2294", "\\sqcup", true);
defineSymbol(math, main, bin, "\u25ef", "\\bigcirc");
defineSymbol(math, main, bin, "\u2219", "\\bullet");
defineSymbol(math, main, bin, "\u2021", "\\ddagger");
defineSymbol(math, main, bin, "\u2240", "\\wr", true);
defineSymbol(math, main, bin, "\u2a3f", "\\amalg");
defineSymbol(math, main, bin, "\u0026", "\\And"); // from amsmath
// Arrow Symbols

defineSymbol(math, main, rel, "\u27f5", "\\longleftarrow", true);
defineSymbol(math, main, rel, "\u21d0", "\\Leftarrow", true);
defineSymbol(math, main, rel, "\u27f8", "\\Longleftarrow", true);
defineSymbol(math, main, rel, "\u27f6", "\\longrightarrow", true);
defineSymbol(math, main, rel, "\u21d2", "\\Rightarrow", true);
defineSymbol(math, main, rel, "\u27f9", "\\Longrightarrow", true);
defineSymbol(math, main, rel, "\u2194", "\\leftrightarrow", true);
defineSymbol(math, main, rel, "\u27f7", "\\longleftrightarrow", true);
defineSymbol(math, main, rel, "\u21d4", "\\Leftrightarrow", true);
defineSymbol(math, main, rel, "\u27fa", "\\Longleftrightarrow", true);
defineSymbol(math, main, rel, "\u21a6", "\\mapsto", true);
defineSymbol(math, main, rel, "\u27fc", "\\longmapsto", true);
defineSymbol(math, main, rel, "\u2197", "\\nearrow", true);
defineSymbol(math, main, rel, "\u21a9", "\\hookleftarrow", true);
defineSymbol(math, main, rel, "\u21aa", "\\hookrightarrow", true);
defineSymbol(math, main, rel, "\u2198", "\\searrow", true);
defineSymbol(math, main, rel, "\u21bc", "\\leftharpoonup", true);
defineSymbol(math, main, rel, "\u21c0", "\\rightharpoonup", true);
defineSymbol(math, main, rel, "\u2199", "\\swarrow", true);
defineSymbol(math, main, rel, "\u21bd", "\\leftharpoondown", true);
defineSymbol(math, main, rel, "\u21c1", "\\rightharpoondown", true);
defineSymbol(math, main, rel, "\u2196", "\\nwarrow", true);
defineSymbol(math, main, rel, "\u21cc", "\\rightleftharpoons", true); // AMS Negated Binary Relations

defineSymbol(math, ams, rel, "\u226e", "\\nless", true);
defineSymbol(math, ams, rel, "\ue010", "\\nleqslant");
defineSymbol(math, ams, rel, "\ue011", "\\nleqq");
defineSymbol(math, ams, rel, "\u2a87", "\\lneq", true);
defineSymbol(math, ams, rel, "\u2268", "\\lneqq", true);
defineSymbol(math, ams, rel, "\ue00c", "\\lvertneqq");
defineSymbol(math, ams, rel, "\u22e6", "\\lnsim", true);
defineSymbol(math, ams, rel, "\u2a89", "\\lnapprox", true);
defineSymbol(math, ams, rel, "\u2280", "\\nprec", true); // unicode-math maps \u22e0 to \npreccurlyeq. We'll use the AMS synonym.

defineSymbol(math, ams, rel, "\u22e0", "\\npreceq", true);
defineSymbol(math, ams, rel, "\u22e8", "\\precnsim", true);
defineSymbol(math, ams, rel, "\u2ab9", "\\precnapprox", true);
defineSymbol(math, ams, rel, "\u2241", "\\nsim", true);
defineSymbol(math, ams, rel, "\ue006", "\\nshortmid");
defineSymbol(math, ams, rel, "\u2224", "\\nmid", true);
defineSymbol(math, ams, rel, "\u22ac", "\\nvdash", true);
defineSymbol(math, ams, rel, "\u22ad", "\\nvDash", true);
defineSymbol(math, ams, rel, "\u22ea", "\\ntriangleleft");
defineSymbol(math, ams, rel, "\u22ec", "\\ntrianglelefteq", true);
defineSymbol(math, ams, rel, "\u228a", "\\subsetneq", true);
defineSymbol(math, ams, rel, "\ue01a", "\\varsubsetneq");
defineSymbol(math, ams, rel, "\u2acb", "\\subsetneqq", true);
defineSymbol(math, ams, rel, "\ue017", "\\varsubsetneqq");
defineSymbol(math, ams, rel, "\u226f", "\\ngtr", true);
defineSymbol(math, ams, rel, "\ue00f", "\\ngeqslant");
defineSymbol(math, ams, rel, "\ue00e", "\\ngeqq");
defineSymbol(math, ams, rel, "\u2a88", "\\gneq", true);
defineSymbol(math, ams, rel, "\u2269", "\\gneqq", true);
defineSymbol(math, ams, rel, "\ue00d", "\\gvertneqq");
defineSymbol(math, ams, rel, "\u22e7", "\\gnsim", true);
defineSymbol(math, ams, rel, "\u2a8a", "\\gnapprox", true);
defineSymbol(math, ams, rel, "\u2281", "\\nsucc", true); // unicode-math maps \u22e1 to \nsucccurlyeq. We'll use the AMS synonym.

defineSymbol(math, ams, rel, "\u22e1", "\\nsucceq", true);
defineSymbol(math, ams, rel, "\u22e9", "\\succnsim", true);
defineSymbol(math, ams, rel, "\u2aba", "\\succnapprox", true); // unicode-math maps \u2246 to \simneqq. We'll use the AMS synonym.

defineSymbol(math, ams, rel, "\u2246", "\\ncong", true);
defineSymbol(math, ams, rel, "\ue007", "\\nshortparallel");
defineSymbol(math, ams, rel, "\u2226", "\\nparallel", true);
defineSymbol(math, ams, rel, "\u22af", "\\nVDash", true);
defineSymbol(math, ams, rel, "\u22eb", "\\ntriangleright");
defineSymbol(math, ams, rel, "\u22ed", "\\ntrianglerighteq", true);
defineSymbol(math, ams, rel, "\ue018", "\\nsupseteqq");
defineSymbol(math, ams, rel, "\u228b", "\\supsetneq", true);
defineSymbol(math, ams, rel, "\ue01b", "\\varsupsetneq");
defineSymbol(math, ams, rel, "\u2acc", "\\supsetneqq", true);
defineSymbol(math, ams, rel, "\ue019", "\\varsupsetneqq");
defineSymbol(math, ams, rel, "\u22ae", "\\nVdash", true);
defineSymbol(math, ams, rel, "\u2ab5", "\\precneqq", true);
defineSymbol(math, ams, rel, "\u2ab6", "\\succneqq", true);
defineSymbol(math, ams, rel, "\ue016", "\\nsubseteqq");
defineSymbol(math, ams, bin, "\u22b4", "\\unlhd");
defineSymbol(math, ams, bin, "\u22b5", "\\unrhd"); // AMS Negated Arrows

defineSymbol(math, ams, rel, "\u219a", "\\nleftarrow", true);
defineSymbol(math, ams, rel, "\u219b", "\\nrightarrow", true);
defineSymbol(math, ams, rel, "\u21cd", "\\nLeftarrow", true);
defineSymbol(math, ams, rel, "\u21cf", "\\nRightarrow", true);
defineSymbol(math, ams, rel, "\u21ae", "\\nleftrightarrow", true);
defineSymbol(math, ams, rel, "\u21ce", "\\nLeftrightarrow", true); // AMS Misc

defineSymbol(math, ams, rel, "\u25b3", "\\vartriangle");
defineSymbol(math, ams, textord, "\u210f", "\\hslash");
defineSymbol(math, ams, textord, "\u25bd", "\\triangledown");
defineSymbol(math, ams, textord, "\u25ca", "\\lozenge");
defineSymbol(math, ams, textord, "\u24c8", "\\circledS");
defineSymbol(math, ams, textord, "\u00ae", "\\circledR");
defineSymbol(text$1, ams, textord, "\u00ae", "\\circledR");
defineSymbol(math, ams, textord, "\u2221", "\\measuredangle", true);
defineSymbol(math, ams, textord, "\u2204", "\\nexists");
defineSymbol(math, ams, textord, "\u2127", "\\mho");
defineSymbol(math, ams, textord, "\u2132", "\\Finv", true);
defineSymbol(math, ams, textord, "\u2141", "\\Game", true);
defineSymbol(math, ams, textord, "\u006b", "\\Bbbk");
defineSymbol(math, ams, textord, "\u2035", "\\backprime");
defineSymbol(math, ams, textord, "\u25b2", "\\blacktriangle");
defineSymbol(math, ams, textord, "\u25bc", "\\blacktriangledown");
defineSymbol(math, ams, textord, "\u25a0", "\\blacksquare");
defineSymbol(math, ams, textord, "\u29eb", "\\blacklozenge");
defineSymbol(math, ams, textord, "\u2605", "\\bigstar");
defineSymbol(math, ams, textord, "\u2222", "\\sphericalangle", true);
defineSymbol(math, ams, textord, "\u2201", "\\complement", true); // unicode-math maps U+F0 (ð) to \matheth. We map to AMS function \eth

defineSymbol(math, ams, textord, "\u00f0", "\\eth", true);
defineSymbol(math, ams, textord, "\u2571", "\\diagup");
defineSymbol(math, ams, textord, "\u2572", "\\diagdown");
defineSymbol(math, ams, textord, "\u25a1", "\\square");
defineSymbol(math, ams, textord, "\u25a1", "\\Box");
defineSymbol(math, ams, textord, "\u25ca", "\\Diamond"); // unicode-math maps U+A5 to \mathyen. We map to AMS function \yen

defineSymbol(math, ams, textord, "\u00a5", "\\yen", true);
defineSymbol(text$1, ams, textord, "\u00a5", "\\yen", true);
defineSymbol(math, ams, textord, "\u2713", "\\checkmark", true);
defineSymbol(text$1, ams, textord, "\u2713", "\\checkmark"); // AMS Hebrew

defineSymbol(math, ams, textord, "\u2136", "\\beth", true);
defineSymbol(math, ams, textord, "\u2138", "\\daleth", true);
defineSymbol(math, ams, textord, "\u2137", "\\gimel", true); // AMS Greek

defineSymbol(math, ams, textord, "\u03dd", "\\digamma");
defineSymbol(math, ams, textord, "\u03f0", "\\varkappa"); // AMS Delimiters

defineSymbol(math, ams, open, "\u250c", "\\ulcorner", true);
defineSymbol(math, ams, close, "\u2510", "\\urcorner", true);
defineSymbol(math, ams, open, "\u2514", "\\llcorner", true);
defineSymbol(math, ams, close, "\u2518", "\\lrcorner", true); // AMS Binary Relations

defineSymbol(math, ams, rel, "\u2266", "\\leqq", true);
defineSymbol(math, ams, rel, "\u2a7d", "\\leqslant", true);
defineSymbol(math, ams, rel, "\u2a95", "\\eqslantless", true);
defineSymbol(math, ams, rel, "\u2272", "\\lesssim", true);
defineSymbol(math, ams, rel, "\u2a85", "\\lessapprox", true);
defineSymbol(math, ams, rel, "\u224a", "\\approxeq", true);
defineSymbol(math, ams, bin, "\u22d6", "\\lessdot");
defineSymbol(math, ams, rel, "\u22d8", "\\lll", true);
defineSymbol(math, ams, rel, "\u2276", "\\lessgtr", true);
defineSymbol(math, ams, rel, "\u22da", "\\lesseqgtr", true);
defineSymbol(math, ams, rel, "\u2a8b", "\\lesseqqgtr", true);
defineSymbol(math, ams, rel, "\u2251", "\\doteqdot");
defineSymbol(math, ams, rel, "\u2253", "\\risingdotseq", true);
defineSymbol(math, ams, rel, "\u2252", "\\fallingdotseq", true);
defineSymbol(math, ams, rel, "\u223d", "\\backsim", true);
defineSymbol(math, ams, rel, "\u22cd", "\\backsimeq", true);
defineSymbol(math, ams, rel, "\u2ac5", "\\subseteqq", true);
defineSymbol(math, ams, rel, "\u22d0", "\\Subset", true);
defineSymbol(math, ams, rel, "\u228f", "\\sqsubset", true);
defineSymbol(math, ams, rel, "\u227c", "\\preccurlyeq", true);
defineSymbol(math, ams, rel, "\u22de", "\\curlyeqprec", true);
defineSymbol(math, ams, rel, "\u227e", "\\precsim", true);
defineSymbol(math, ams, rel, "\u2ab7", "\\precapprox", true);
defineSymbol(math, ams, rel, "\u22b2", "\\vartriangleleft");
defineSymbol(math, ams, rel, "\u22b4", "\\trianglelefteq");
defineSymbol(math, ams, rel, "\u22a8", "\\vDash", true);
defineSymbol(math, ams, rel, "\u22aa", "\\Vvdash", true);
defineSymbol(math, ams, rel, "\u2323", "\\smallsmile");
defineSymbol(math, ams, rel, "\u2322", "\\smallfrown");
defineSymbol(math, ams, rel, "\u224f", "\\bumpeq", true);
defineSymbol(math, ams, rel, "\u224e", "\\Bumpeq", true);
defineSymbol(math, ams, rel, "\u2267", "\\geqq", true);
defineSymbol(math, ams, rel, "\u2a7e", "\\geqslant", true);
defineSymbol(math, ams, rel, "\u2a96", "\\eqslantgtr", true);
defineSymbol(math, ams, rel, "\u2273", "\\gtrsim", true);
defineSymbol(math, ams, rel, "\u2a86", "\\gtrapprox", true);
defineSymbol(math, ams, bin, "\u22d7", "\\gtrdot");
defineSymbol(math, ams, rel, "\u22d9", "\\ggg", true);
defineSymbol(math, ams, rel, "\u2277", "\\gtrless", true);
defineSymbol(math, ams, rel, "\u22db", "\\gtreqless", true);
defineSymbol(math, ams, rel, "\u2a8c", "\\gtreqqless", true);
defineSymbol(math, ams, rel, "\u2256", "\\eqcirc", true);
defineSymbol(math, ams, rel, "\u2257", "\\circeq", true);
defineSymbol(math, ams, rel, "\u225c", "\\triangleq", true);
defineSymbol(math, ams, rel, "\u223c", "\\thicksim");
defineSymbol(math, ams, rel, "\u2248", "\\thickapprox");
defineSymbol(math, ams, rel, "\u2ac6", "\\supseteqq", true);
defineSymbol(math, ams, rel, "\u22d1", "\\Supset", true);
defineSymbol(math, ams, rel, "\u2290", "\\sqsupset", true);
defineSymbol(math, ams, rel, "\u227d", "\\succcurlyeq", true);
defineSymbol(math, ams, rel, "\u22df", "\\curlyeqsucc", true);
defineSymbol(math, ams, rel, "\u227f", "\\succsim", true);
defineSymbol(math, ams, rel, "\u2ab8", "\\succapprox", true);
defineSymbol(math, ams, rel, "\u22b3", "\\vartriangleright");
defineSymbol(math, ams, rel, "\u22b5", "\\trianglerighteq");
defineSymbol(math, ams, rel, "\u22a9", "\\Vdash", true);
defineSymbol(math, ams, rel, "\u2223", "\\shortmid");
defineSymbol(math, ams, rel, "\u2225", "\\shortparallel");
defineSymbol(math, ams, rel, "\u226c", "\\between", true);
defineSymbol(math, ams, rel, "\u22d4", "\\pitchfork", true);
defineSymbol(math, ams, rel, "\u221d", "\\varpropto");
defineSymbol(math, ams, rel, "\u25c0", "\\blacktriangleleft"); // unicode-math says that \therefore is a mathord atom.
// We kept the amssymb atom type, which is rel.

defineSymbol(math, ams, rel, "\u2234", "\\therefore", true);
defineSymbol(math, ams, rel, "\u220d", "\\backepsilon");
defineSymbol(math, ams, rel, "\u25b6", "\\blacktriangleright"); // unicode-math says that \because is a mathord atom.
// We kept the amssymb atom type, which is rel.

defineSymbol(math, ams, rel, "\u2235", "\\because", true);
defineSymbol(math, ams, rel, "\u22d8", "\\llless");
defineSymbol(math, ams, rel, "\u22d9", "\\gggtr");
defineSymbol(math, ams, bin, "\u22b2", "\\lhd");
defineSymbol(math, ams, bin, "\u22b3", "\\rhd");
defineSymbol(math, ams, rel, "\u2242", "\\eqsim", true);
defineSymbol(math, main, rel, "\u22c8", "\\Join");
defineSymbol(math, ams, rel, "\u2251", "\\Doteq", true); // AMS Binary Operators

defineSymbol(math, ams, bin, "\u2214", "\\dotplus", true);
defineSymbol(math, ams, bin, "\u2216", "\\smallsetminus");
defineSymbol(math, ams, bin, "\u22d2", "\\Cap", true);
defineSymbol(math, ams, bin, "\u22d3", "\\Cup", true);
defineSymbol(math, ams, bin, "\u2a5e", "\\doublebarwedge", true);
defineSymbol(math, ams, bin, "\u229f", "\\boxminus", true);
defineSymbol(math, ams, bin, "\u229e", "\\boxplus", true);
defineSymbol(math, ams, bin, "\u22c7", "\\divideontimes", true);
defineSymbol(math, ams, bin, "\u22c9", "\\ltimes", true);
defineSymbol(math, ams, bin, "\u22ca", "\\rtimes", true);
defineSymbol(math, ams, bin, "\u22cb", "\\leftthreetimes", true);
defineSymbol(math, ams, bin, "\u22cc", "\\rightthreetimes", true);
defineSymbol(math, ams, bin, "\u22cf", "\\curlywedge", true);
defineSymbol(math, ams, bin, "\u22ce", "\\curlyvee", true);
defineSymbol(math, ams, bin, "\u229d", "\\circleddash", true);
defineSymbol(math, ams, bin, "\u229b", "\\circledast", true);
defineSymbol(math, ams, bin, "\u22c5", "\\centerdot");
defineSymbol(math, ams, bin, "\u22ba", "\\intercal", true);
defineSymbol(math, ams, bin, "\u22d2", "\\doublecap");
defineSymbol(math, ams, bin, "\u22d3", "\\doublecup");
defineSymbol(math, ams, bin, "\u22a0", "\\boxtimes", true); // AMS Arrows
// Note: unicode-math maps \u21e2 to their own function \rightdasharrow.
// We'll map it to AMS function \dashrightarrow. It produces the same atom.

defineSymbol(math, ams, rel, "\u21e2", "\\dashrightarrow", true); // unicode-math maps \u21e0 to \leftdasharrow. We'll use the AMS synonym.

defineSymbol(math, ams, rel, "\u21e0", "\\dashleftarrow", true);
defineSymbol(math, ams, rel, "\u21c7", "\\leftleftarrows", true);
defineSymbol(math, ams, rel, "\u21c6", "\\leftrightarrows", true);
defineSymbol(math, ams, rel, "\u21da", "\\Lleftarrow", true);
defineSymbol(math, ams, rel, "\u219e", "\\twoheadleftarrow", true);
defineSymbol(math, ams, rel, "\u21a2", "\\leftarrowtail", true);
defineSymbol(math, ams, rel, "\u21ab", "\\looparrowleft", true);
defineSymbol(math, ams, rel, "\u21cb", "\\leftrightharpoons", true);
defineSymbol(math, ams, rel, "\u21b6", "\\curvearrowleft", true); // unicode-math maps \u21ba to \acwopencirclearrow. We'll use the AMS synonym.

defineSymbol(math, ams, rel, "\u21ba", "\\circlearrowleft", true);
defineSymbol(math, ams, rel, "\u21b0", "\\Lsh", true);
defineSymbol(math, ams, rel, "\u21c8", "\\upuparrows", true);
defineSymbol(math, ams, rel, "\u21bf", "\\upharpoonleft", true);
defineSymbol(math, ams, rel, "\u21c3", "\\downharpoonleft", true);
defineSymbol(math, ams, rel, "\u22b8", "\\multimap", true);
defineSymbol(math, ams, rel, "\u21ad", "\\leftrightsquigarrow", true);
defineSymbol(math, ams, rel, "\u21c9", "\\rightrightarrows", true);
defineSymbol(math, ams, rel, "\u21c4", "\\rightleftarrows", true);
defineSymbol(math, ams, rel, "\u21a0", "\\twoheadrightarrow", true);
defineSymbol(math, ams, rel, "\u21a3", "\\rightarrowtail", true);
defineSymbol(math, ams, rel, "\u21ac", "\\looparrowright", true);
defineSymbol(math, ams, rel, "\u21b7", "\\curvearrowright", true); // unicode-math maps \u21bb to \cwopencirclearrow. We'll use the AMS synonym.

defineSymbol(math, ams, rel, "\u21bb", "\\circlearrowright", true);
defineSymbol(math, ams, rel, "\u21b1", "\\Rsh", true);
defineSymbol(math, ams, rel, "\u21ca", "\\downdownarrows", true);
defineSymbol(math, ams, rel, "\u21be", "\\upharpoonright", true);
defineSymbol(math, ams, rel, "\u21c2", "\\downharpoonright", true);
defineSymbol(math, ams, rel, "\u21dd", "\\rightsquigarrow", true);
defineSymbol(math, ams, rel, "\u21dd", "\\leadsto");
defineSymbol(math, ams, rel, "\u21db", "\\Rrightarrow", true);
defineSymbol(math, ams, rel, "\u21be", "\\restriction");
defineSymbol(math, main, textord, "\u2018", "`");
defineSymbol(math, main, textord, "$", "\\$");
defineSymbol(text$1, main, textord, "$", "\\$");
defineSymbol(text$1, main, textord, "$", "\\textdollar");
defineSymbol(math, main, textord, "%", "\\%");
defineSymbol(text$1, main, textord, "%", "\\%");
defineSymbol(math, main, textord, "_", "\\_");
defineSymbol(text$1, main, textord, "_", "\\_");
defineSymbol(text$1, main, textord, "_", "\\textunderscore");
defineSymbol(math, main, textord, "\u2220", "\\angle", true);
defineSymbol(math, main, textord, "\u221e", "\\infty", true);
defineSymbol(math, main, textord, "\u2032", "\\prime");
defineSymbol(math, main, textord, "\u25b3", "\\triangle");
defineSymbol(math, main, textord, "\u0393", "\\Gamma", true);
defineSymbol(math, main, textord, "\u0394", "\\Delta", true);
defineSymbol(math, main, textord, "\u0398", "\\Theta", true);
defineSymbol(math, main, textord, "\u039b", "\\Lambda", true);
defineSymbol(math, main, textord, "\u039e", "\\Xi", true);
defineSymbol(math, main, textord, "\u03a0", "\\Pi", true);
defineSymbol(math, main, textord, "\u03a3", "\\Sigma", true);
defineSymbol(math, main, textord, "\u03a5", "\\Upsilon", true);
defineSymbol(math, main, textord, "\u03a6", "\\Phi", true);
defineSymbol(math, main, textord, "\u03a8", "\\Psi", true);
defineSymbol(math, main, textord, "\u03a9", "\\Omega", true);
defineSymbol(math, main, textord, "A", "\u0391");
defineSymbol(math, main, textord, "B", "\u0392");
defineSymbol(math, main, textord, "E", "\u0395");
defineSymbol(math, main, textord, "Z", "\u0396");
defineSymbol(math, main, textord, "H", "\u0397");
defineSymbol(math, main, textord, "I", "\u0399");
defineSymbol(math, main, textord, "K", "\u039A");
defineSymbol(math, main, textord, "M", "\u039C");
defineSymbol(math, main, textord, "N", "\u039D");
defineSymbol(math, main, textord, "O", "\u039F");
defineSymbol(math, main, textord, "P", "\u03A1");
defineSymbol(math, main, textord, "T", "\u03A4");
defineSymbol(math, main, textord, "X", "\u03A7");
defineSymbol(math, main, textord, "\u00ac", "\\neg", true);
defineSymbol(math, main, textord, "\u00ac", "\\lnot");
defineSymbol(math, main, textord, "\u22a4", "\\top");
defineSymbol(math, main, textord, "\u22a5", "\\bot");
defineSymbol(math, main, textord, "\u2205", "\\emptyset");
defineSymbol(math, ams, textord, "\u2205", "\\varnothing");
defineSymbol(math, main, mathord, "\u03b1", "\\alpha", true);
defineSymbol(math, main, mathord, "\u03b2", "\\beta", true);
defineSymbol(math, main, mathord, "\u03b3", "\\gamma", true);
defineSymbol(math, main, mathord, "\u03b4", "\\delta", true);
defineSymbol(math, main, mathord, "\u03f5", "\\epsilon", true);
defineSymbol(math, main, mathord, "\u03b6", "\\zeta", true);
defineSymbol(math, main, mathord, "\u03b7", "\\eta", true);
defineSymbol(math, main, mathord, "\u03b8", "\\theta", true);
defineSymbol(math, main, mathord, "\u03b9", "\\iota", true);
defineSymbol(math, main, mathord, "\u03ba", "\\kappa", true);
defineSymbol(math, main, mathord, "\u03bb", "\\lambda", true);
defineSymbol(math, main, mathord, "\u03bc", "\\mu", true);
defineSymbol(math, main, mathord, "\u03bd", "\\nu", true);
defineSymbol(math, main, mathord, "\u03be", "\\xi", true);
defineSymbol(math, main, mathord, "\u03bf", "\\omicron", true);
defineSymbol(math, main, mathord, "\u03c0", "\\pi", true);
defineSymbol(math, main, mathord, "\u03c1", "\\rho", true);
defineSymbol(math, main, mathord, "\u03c3", "\\sigma", true);
defineSymbol(math, main, mathord, "\u03c4", "\\tau", true);
defineSymbol(math, main, mathord, "\u03c5", "\\upsilon", true);
defineSymbol(math, main, mathord, "\u03d5", "\\phi", true);
defineSymbol(math, main, mathord, "\u03c7", "\\chi", true);
defineSymbol(math, main, mathord, "\u03c8", "\\psi", true);
defineSymbol(math, main, mathord, "\u03c9", "\\omega", true);
defineSymbol(math, main, mathord, "\u03b5", "\\varepsilon", true);
defineSymbol(math, main, mathord, "\u03d1", "\\vartheta", true);
defineSymbol(math, main, mathord, "\u03d6", "\\varpi", true);
defineSymbol(math, main, mathord, "\u03f1", "\\varrho", true);
defineSymbol(math, main, mathord, "\u03c2", "\\varsigma", true);
defineSymbol(math, main, mathord, "\u03c6", "\\varphi", true);
defineSymbol(math, main, bin, "\u2217", "*");
defineSymbol(math, main, bin, "+", "+");
defineSymbol(math, main, bin, "\u2212", "-");
defineSymbol(math, main, bin, "\u22c5", "\\cdot", true);
defineSymbol(math, main, bin, "\u2218", "\\circ");
defineSymbol(math, main, bin, "\u00f7", "\\div", true);
defineSymbol(math, main, bin, "\u00b1", "\\pm", true);
defineSymbol(math, main, bin, "\u00d7", "\\times", true);
defineSymbol(math, main, bin, "\u2229", "\\cap", true);
defineSymbol(math, main, bin, "\u222a", "\\cup", true);
defineSymbol(math, main, bin, "\u2216", "\\setminus");
defineSymbol(math, main, bin, "\u2227", "\\land");
defineSymbol(math, main, bin, "\u2228", "\\lor");
defineSymbol(math, main, bin, "\u2227", "\\wedge", true);
defineSymbol(math, main, bin, "\u2228", "\\vee", true);
defineSymbol(math, main, textord, "\u221a", "\\surd");
defineSymbol(math, main, open, "(", "(");
defineSymbol(math, main, open, "[", "[");
defineSymbol(math, main, open, "\u27e8", "\\langle", true);
defineSymbol(math, main, open, "\u2223", "\\lvert");
defineSymbol(math, main, open, "\u2225", "\\lVert");
defineSymbol(math, main, close, ")", ")");
defineSymbol(math, main, close, "]", "]");
defineSymbol(math, main, close, "?", "?");
defineSymbol(math, main, close, "!", "!");
defineSymbol(math, main, close, "\u27e9", "\\rangle", true);
defineSymbol(math, main, close, "\u2223", "\\rvert");
defineSymbol(math, main, close, "\u2225", "\\rVert");
defineSymbol(math, main, rel, "=", "=");
defineSymbol(math, main, rel, "<", "<");
defineSymbol(math, main, rel, ">", ">");
defineSymbol(math, main, rel, ":", ":");
defineSymbol(math, main, rel, "\u2248", "\\approx", true);
defineSymbol(math, main, rel, "\u2245", "\\cong", true);
defineSymbol(math, main, rel, "\u2265", "\\ge");
defineSymbol(math, main, rel, "\u2265", "\\geq", true);
defineSymbol(math, main, rel, "\u2190", "\\gets");
defineSymbol(math, main, rel, ">", "\\gt");
defineSymbol(math, main, rel, "\u2208", "\\in", true);
defineSymbol(math, main, rel, "\ue020", "\\@not");
defineSymbol(math, main, rel, "\u2282", "\\subset", true);
defineSymbol(math, main, rel, "\u2283", "\\supset", true);
defineSymbol(math, main, rel, "\u2286", "\\subseteq", true);
defineSymbol(math, main, rel, "\u2287", "\\supseteq", true);
defineSymbol(math, ams, rel, "\u2288", "\\nsubseteq", true);
defineSymbol(math, ams, rel, "\u2289", "\\nsupseteq", true);
defineSymbol(math, main, rel, "\u22a8", "\\models");
defineSymbol(math, main, rel, "\u2190", "\\leftarrow", true);
defineSymbol(math, main, rel, "\u2264", "\\le");
defineSymbol(math, main, rel, "\u2264", "\\leq", true);
defineSymbol(math, main, rel, "<", "\\lt");
defineSymbol(math, main, rel, "\u2192", "\\rightarrow", true);
defineSymbol(math, main, rel, "\u2192", "\\to");
defineSymbol(math, ams, rel, "\u2271", "\\ngeq", true);
defineSymbol(math, ams, rel, "\u2270", "\\nleq", true);
defineSymbol(math, main, spacing, "\u00a0", "\\ ");
defineSymbol(math, main, spacing, "\u00a0", "~");
defineSymbol(math, main, spacing, "\u00a0", "\\space"); // Ref: LaTeX Source 2e: \DeclareRobustCommand{\nobreakspace}{%

defineSymbol(math, main, spacing, "\u00a0", "\\nobreakspace");
defineSymbol(text$1, main, spacing, "\u00a0", "\\ ");
defineSymbol(text$1, main, spacing, "\u00a0", "~");
defineSymbol(text$1, main, spacing, "\u00a0", "\\space");
defineSymbol(text$1, main, spacing, "\u00a0", "\\nobreakspace");
defineSymbol(math, main, spacing, null, "\\nobreak");
defineSymbol(math, main, spacing, null, "\\allowbreak");
defineSymbol(math, main, punct, ",", ",");
defineSymbol(math, main, punct, ";", ";");
defineSymbol(math, ams, bin, "\u22bc", "\\barwedge", true);
defineSymbol(math, ams, bin, "\u22bb", "\\veebar", true);
defineSymbol(math, main, bin, "\u2299", "\\odot", true);
defineSymbol(math, main, bin, "\u2295", "\\oplus", true);
defineSymbol(math, main, bin, "\u2297", "\\otimes", true);
defineSymbol(math, main, textord, "\u2202", "\\partial", true);
defineSymbol(math, main, bin, "\u2298", "\\oslash", true);
defineSymbol(math, ams, bin, "\u229a", "\\circledcirc", true);
defineSymbol(math, ams, bin, "\u22a1", "\\boxdot", true);
defineSymbol(math, main, bin, "\u25b3", "\\bigtriangleup");
defineSymbol(math, main, bin, "\u25bd", "\\bigtriangledown");
defineSymbol(math, main, bin, "\u2020", "\\dagger");
defineSymbol(math, main, bin, "\u22c4", "\\diamond");
defineSymbol(math, main, bin, "\u22c6", "\\star");
defineSymbol(math, main, bin, "\u25c3", "\\triangleleft");
defineSymbol(math, main, bin, "\u25b9", "\\triangleright");
defineSymbol(math, main, open, "{", "\\{");
defineSymbol(text$1, main, textord, "{", "\\{");
defineSymbol(text$1, main, textord, "{", "\\textbraceleft");
defineSymbol(math, main, close, "}", "\\}");
defineSymbol(text$1, main, textord, "}", "\\}");
defineSymbol(text$1, main, textord, "}", "\\textbraceright");
defineSymbol(math, main, open, "{", "\\lbrace");
defineSymbol(math, main, close, "}", "\\rbrace");
defineSymbol(math, main, open, "[", "\\lbrack");
defineSymbol(text$1, main, textord, "[", "\\lbrack");
defineSymbol(math, main, close, "]", "\\rbrack");
defineSymbol(text$1, main, textord, "]", "\\rbrack");
defineSymbol(math, main, open, "(", "\\lparen");
defineSymbol(math, main, close, ")", "\\rparen");
defineSymbol(text$1, main, textord, "<", "\\textless"); // in T1 fontenc

defineSymbol(text$1, main, textord, ">", "\\textgreater"); // in T1 fontenc

defineSymbol(math, main, open, "\u230a", "\\lfloor", true);
defineSymbol(math, main, close, "\u230b", "\\rfloor", true);
defineSymbol(math, main, open, "\u2308", "\\lceil", true);
defineSymbol(math, main, close, "\u2309", "\\rceil", true);
defineSymbol(math, main, textord, "\\", "\\backslash");
defineSymbol(math, main, textord, "\u2223", "|");
defineSymbol(math, main, textord, "\u2223", "\\vert");
defineSymbol(text$1, main, textord, "|", "\\textbar"); // in T1 fontenc

defineSymbol(math, main, textord, "\u2225", "\\|");
defineSymbol(math, main, textord, "\u2225", "\\Vert");
defineSymbol(text$1, main, textord, "\u2225", "\\textbardbl");
defineSymbol(text$1, main, textord, "~", "\\textasciitilde");
defineSymbol(text$1, main, textord, "\\", "\\textbackslash");
defineSymbol(text$1, main, textord, "^", "\\textasciicircum");
defineSymbol(math, main, rel, "\u2191", "\\uparrow", true);
defineSymbol(math, main, rel, "\u21d1", "\\Uparrow", true);
defineSymbol(math, main, rel, "\u2193", "\\downarrow", true);
defineSymbol(math, main, rel, "\u21d3", "\\Downarrow", true);
defineSymbol(math, main, rel, "\u2195", "\\updownarrow", true);
defineSymbol(math, main, rel, "\u21d5", "\\Updownarrow", true);
defineSymbol(math, main, op, "\u2210", "\\coprod");
defineSymbol(math, main, op, "\u22c1", "\\bigvee");
defineSymbol(math, main, op, "\u22c0", "\\bigwedge");
defineSymbol(math, main, op, "\u2a04", "\\biguplus");
defineSymbol(math, main, op, "\u22c2", "\\bigcap");
defineSymbol(math, main, op, "\u22c3", "\\bigcup");
defineSymbol(math, main, op, "\u222b", "\\int");
defineSymbol(math, main, op, "\u222b", "\\intop");
defineSymbol(math, main, op, "\u222c", "\\iint");
defineSymbol(math, main, op, "\u222d", "\\iiint");
defineSymbol(math, main, op, "\u220f", "\\prod");
defineSymbol(math, main, op, "\u2211", "\\sum");
defineSymbol(math, main, op, "\u2a02", "\\bigotimes");
defineSymbol(math, main, op, "\u2a01", "\\bigoplus");
defineSymbol(math, main, op, "\u2a00", "\\bigodot");
defineSymbol(math, main, op, "\u222e", "\\oint");
defineSymbol(math, main, op, "\u222f", "\\oiint");
defineSymbol(math, main, op, "\u2230", "\\oiiint");
defineSymbol(math, main, op, "\u2a06", "\\bigsqcup");
defineSymbol(math, main, op, "\u222b", "\\smallint");
defineSymbol(text$1, main, inner, "\u2026", "\\textellipsis");
defineSymbol(math, main, inner, "\u2026", "\\mathellipsis");
defineSymbol(text$1, main, inner, "\u2026", "\\ldots", true);
defineSymbol(math, main, inner, "\u2026", "\\ldots", true);
defineSymbol(math, main, inner, "\u22ef", "\\@cdots", true);
defineSymbol(math, main, inner, "\u22f1", "\\ddots", true);
defineSymbol(math, main, textord, "\u22ee", "\\varvdots"); // \vdots is a macro

defineSymbol(math, main, accent, "\u02ca", "\\acute");
defineSymbol(math, main, accent, "\u02cb", "\\grave");
defineSymbol(math, main, accent, "\u00a8", "\\ddot");
defineSymbol(math, main, accent, "\u007e", "\\tilde");
defineSymbol(math, main, accent, "\u02c9", "\\bar");
defineSymbol(math, main, accent, "\u02d8", "\\breve");
defineSymbol(math, main, accent, "\u02c7", "\\check");
defineSymbol(math, main, accent, "\u005e", "\\hat");
defineSymbol(math, main, accent, "\u20d7", "\\vec");
defineSymbol(math, main, accent, "\u02d9", "\\dot");
defineSymbol(math, main, accent, "\u02da", "\\mathring");
defineSymbol(math, main, mathord, "\u0131", "\\imath", true);
defineSymbol(math, main, mathord, "\u0237", "\\jmath", true);
defineSymbol(text$1, main, textord, "\u0131", "\\i", true);
defineSymbol(text$1, main, textord, "\u0237", "\\j", true);
defineSymbol(text$1, main, textord, "\u00df", "\\ss", true);
defineSymbol(text$1, main, textord, "\u00e6", "\\ae", true);
defineSymbol(text$1, main, textord, "\u00e6", "\\ae", true);
defineSymbol(text$1, main, textord, "\u0153", "\\oe", true);
defineSymbol(text$1, main, textord, "\u00f8", "\\o", true);
defineSymbol(text$1, main, textord, "\u00c6", "\\AE", true);
defineSymbol(text$1, main, textord, "\u0152", "\\OE", true);
defineSymbol(text$1, main, textord, "\u00d8", "\\O", true);
defineSymbol(text$1, main, accent, "\u02ca", "\\'"); // acute

defineSymbol(text$1, main, accent, "\u02cb", "\\`"); // grave

defineSymbol(text$1, main, accent, "\u02c6", "\\^"); // circumflex

defineSymbol(text$1, main, accent, "\u02dc", "\\~"); // tilde

defineSymbol(text$1, main, accent, "\u02c9", "\\="); // macron

defineSymbol(text$1, main, accent, "\u02d8", "\\u"); // breve

defineSymbol(text$1, main, accent, "\u02d9", "\\."); // dot above

defineSymbol(text$1, main, accent, "\u02da", "\\r"); // ring above

defineSymbol(text$1, main, accent, "\u02c7", "\\v"); // caron

defineSymbol(text$1, main, accent, "\u00a8", '\\"'); // diaresis

defineSymbol(text$1, main, accent, "\u02dd", "\\H"); // double acute

defineSymbol(text$1, main, accent, "\u25ef", "\\textcircled"); // \bigcirc glyph
// These ligatures are detected and created in Parser.js's `formLigatures`.

const ligatures = {
  "--": true,
  "---": true,
  "``": true,
  "''": true
};
defineSymbol(text$1, main, textord, "\u2013", "--");
defineSymbol(text$1, main, textord, "\u2013", "\\textendash");
defineSymbol(text$1, main, textord, "\u2014", "---");
defineSymbol(text$1, main, textord, "\u2014", "\\textemdash");
defineSymbol(text$1, main, textord, "\u2018", "`");
defineSymbol(text$1, main, textord, "\u2018", "\\textquoteleft");
defineSymbol(text$1, main, textord, "\u2019", "'");
defineSymbol(text$1, main, textord, "\u2019", "\\textquoteright");
defineSymbol(text$1, main, textord, "\u201c", "``");
defineSymbol(text$1, main, textord, "\u201c", "\\textquotedblleft");
defineSymbol(text$1, main, textord, "\u201d", "''");
defineSymbol(text$1, main, textord, "\u201d", "\\textquotedblright"); //  \degree from gensymb package

defineSymbol(math, main, textord, "\u00b0", "\\degree", true);
defineSymbol(text$1, main, textord, "\u00b0", "\\degree"); // \textdegree from inputenc package

defineSymbol(text$1, main, textord, "\u00b0", "\\textdegree", true); // TODO: In LaTeX, \pounds can generate a different character in text and math
// mode, but among our fonts, only Main-Italic defines this character "163".

defineSymbol(math, main, mathord, "\u00a3", "\\pounds");
defineSymbol(math, main, mathord, "\u00a3", "\\mathsterling", true);
defineSymbol(text$1, main, mathord, "\u00a3", "\\pounds");
defineSymbol(text$1, main, mathord, "\u00a3", "\\textsterling", true);
defineSymbol(math, ams, textord, "\u2720", "\\maltese");
defineSymbol(text$1, ams, textord, "\u2720", "\\maltese");
defineSymbol(text$1, main, spacing, "\u00a0", "\\ ");
defineSymbol(text$1, main, spacing, "\u00a0", " ");
defineSymbol(text$1, main, spacing, "\u00a0", "~"); // There are lots of symbols which are the same, so we add them in afterwards.
// All of these are textords in math mode

const mathTextSymbols = "0123456789/@.\"";

for (let i = 0; i < mathTextSymbols.length; i++) {
  const ch = mathTextSymbols.charAt(i);
  defineSymbol(math, main, textord, ch, ch);
} // All of these are textords in text mode


const textSymbols = "0123456789!@*()-=+[]<>|\";:?/.,";

for (let i = 0; i < textSymbols.length; i++) {
  const ch = textSymbols.charAt(i);
  defineSymbol(text$1, main, textord, ch, ch);
} // All of these are textords in text mode, and mathords in math mode


const letters = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";

for (let i = 0; i < letters.length; i++) {
  const ch = letters.charAt(i);
  defineSymbol(math, main, mathord, ch, ch);
  defineSymbol(text$1, main, textord, ch, ch);
} // Blackboard bold and script letters in Unicode range


defineSymbol(math, ams, textord, "C", "\u2102"); // blackboard bold

defineSymbol(text$1, ams, textord, "C", "\u2102");
defineSymbol(math, ams, textord, "H", "\u210D");
defineSymbol(text$1, ams, textord, "H", "\u210D");
defineSymbol(math, ams, textord, "N", "\u2115");
defineSymbol(text$1, ams, textord, "N", "\u2115");
defineSymbol(math, ams, textord, "P", "\u2119");
defineSymbol(text$1, ams, textord, "P", "\u2119");
defineSymbol(math, ams, textord, "Q", "\u211A");
defineSymbol(text$1, ams, textord, "Q", "\u211A");
defineSymbol(math, ams, textord, "R", "\u211D");
defineSymbol(text$1, ams, textord, "R", "\u211D");
defineSymbol(math, ams, textord, "Z", "\u2124");
defineSymbol(text$1, ams, textord, "Z", "\u2124");
defineSymbol(math, main, mathord, "h", "\u210E"); // italic h, Planck constant

defineSymbol(text$1, main, mathord, "h", "\u210E"); // The next loop loads wide (surrogate pair) characters.
// We support some letters in the Unicode range U+1D400 to U+1D7FF,
// Mathematical Alphanumeric Symbols.
// Some editors do not deal well with wide characters. So don't write the
// string into this file. Instead, create the string from the surrogate pair.

let wideChar = "";

for (let i = 0; i < letters.length; i++) {
  const ch = letters.charAt(i); // The hex numbers in the next line are a surrogate pair.
  // 0xD835 is the high surrogate for all letters in the range we support.
  // 0xDC00 is the low surrogate for bold A.

  wideChar = String.fromCharCode(0xD835, 0xDC00 + i); // A-Z a-z bold

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDC34 + i); // A-Z a-z italic

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDC68 + i); // A-Z a-z bold italic

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDD04 + i); // A-Z a-z Fractur

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDDA0 + i); // A-Z a-z sans-serif

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDDD4 + i); // A-Z a-z sans bold

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDE08 + i); // A-Z a-z sans italic

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDE70 + i); // A-Z a-z monospace

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);

  if (i < 26) {
    // KaTeX fonts have only capital letters for blackboard bold and script.
    // See exception for k below.
    wideChar = String.fromCharCode(0xD835, 0xDD38 + i); // A-Z double struck

    defineSymbol(math, main, mathord, ch, wideChar);
    defineSymbol(text$1, main, textord, ch, wideChar);
    wideChar = String.fromCharCode(0xD835, 0xDC9C + i); // A-Z script

    defineSymbol(math, main, mathord, ch, wideChar);
    defineSymbol(text$1, main, textord, ch, wideChar);
  } // TODO: Add bold script when it is supported by a KaTeX font.

} // "k" is the only double struck lower case letter in the KaTeX fonts.


wideChar = String.fromCharCode(0xD835, 0xDD5C); // k double struck

defineSymbol(math, main, mathord, "k", wideChar);
defineSymbol(text$1, main, textord, "k", wideChar); // Next, some wide character numerals

for (let i = 0; i < 10; i++) {
  const ch = i.toString();
  wideChar = String.fromCharCode(0xD835, 0xDFCE + i); // 0-9 bold

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDFE2 + i); // 0-9 sans serif

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDFEC + i); // 0-9 bold sans

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
  wideChar = String.fromCharCode(0xD835, 0xDFF6 + i); // 0-9 monospace

  defineSymbol(math, main, mathord, ch, wideChar);
  defineSymbol(text$1, main, textord, ch, wideChar);
} // We add these Latin-1 letters as symbols for backwards-compatibility,
// but they are not actually in the font, nor are they supported by the
// Unicode accent mechanism, so they fall back to Times font and look ugly.
// TODO(edemaine): Fix this.


const extraLatin = "ÇÐÞçþ";

for (let i = 0; i < extraLatin.length; i++) {
  const ch = extraLatin.charAt(i);
  defineSymbol(math, main, mathord, ch, ch);
  defineSymbol(text$1, main, textord, ch, ch);
}

defineSymbol(text$1, main, textord, "ð", "ð"); // Unicode versions of existing characters

defineSymbol(text$1, main, textord, "\u2013", "–");
defineSymbol(text$1, main, textord, "\u2014", "—");
defineSymbol(text$1, main, textord, "\u2018", "‘");
defineSymbol(text$1, main, textord, "\u2019", "’");
defineSymbol(text$1, main, textord, "\u201c", "“");
defineSymbol(text$1, main, textord, "\u201d", "”");

/**
 * This file provides support for Unicode range U+1D400 to U+1D7FF,
 * Mathematical Alphanumeric Symbols.
 *
 * Function wideCharacterFont takes a wide character as input and returns
 * the font information necessary to render it properly.
 */
/**
 * Data below is from https://www.unicode.org/charts/PDF/U1D400.pdf
 * That document sorts characters into groups by font type, say bold or italic.
 *
 * In the arrays below, each subarray consists three elements:
 *      * The CSS class of that group when in math mode.
 *      * The CSS class of that group when in text mode.
 *      * The font name, so that KaTeX can get font metrics.
 */

const wideLatinLetterData = [["mathbf", "textbf", "Main-Bold"], // A-Z bold upright
["mathbf", "textbf", "Main-Bold"], // a-z bold upright
["mathdefault", "textit", "Math-Italic"], // A-Z italic
["mathdefault", "textit", "Math-Italic"], // a-z italic
["boldsymbol", "boldsymbol", "Main-BoldItalic"], // A-Z bold italic
["boldsymbol", "boldsymbol", "Main-BoldItalic"], // a-z bold italic
// Map fancy A-Z letters to script, not calligraphic.
// This aligns with unicode-math and math fonts (except Cambria Math).
["mathscr", "textscr", "Script-Regular"], // A-Z script
["", "", ""], // a-z script.  No font
["", "", ""], // A-Z bold script. No font
["", "", ""], // a-z bold script. No font
["mathfrak", "textfrak", "Fraktur-Regular"], // A-Z Fraktur
["mathfrak", "textfrak", "Fraktur-Regular"], // a-z Fraktur
["mathbb", "textbb", "AMS-Regular"], // A-Z double-struck
["mathbb", "textbb", "AMS-Regular"], // k double-struck
["", "", ""], // A-Z bold Fraktur No font metrics
["", "", ""], // a-z bold Fraktur.   No font.
["mathsf", "textsf", "SansSerif-Regular"], // A-Z sans-serif
["mathsf", "textsf", "SansSerif-Regular"], // a-z sans-serif
["mathboldsf", "textboldsf", "SansSerif-Bold"], // A-Z bold sans-serif
["mathboldsf", "textboldsf", "SansSerif-Bold"], // a-z bold sans-serif
["mathitsf", "textitsf", "SansSerif-Italic"], // A-Z italic sans-serif
["mathitsf", "textitsf", "SansSerif-Italic"], // a-z italic sans-serif
["", "", ""], // A-Z bold italic sans. No font
["", "", ""], // a-z bold italic sans. No font
["mathtt", "texttt", "Typewriter-Regular"], // A-Z monospace
["mathtt", "texttt", "Typewriter-Regular"]];
const wideNumeralData = [["mathbf", "textbf", "Main-Bold"], // 0-9 bold
["", "", ""], // 0-9 double-struck. No KaTeX font.
["mathsf", "textsf", "SansSerif-Regular"], // 0-9 sans-serif
["mathboldsf", "textboldsf", "SansSerif-Bold"], // 0-9 bold sans-serif
["mathtt", "texttt", "Typewriter-Regular"]];
const wideCharacterFont = function wideCharacterFont(wideChar, mode) {
  // IE doesn't support codePointAt(). So work with the surrogate pair.
  const H = wideChar.charCodeAt(0); // high surrogate

  const L = wideChar.charCodeAt(1); // low surrogate

  const codePoint = (H - 0xD800) * 0x400 + (L - 0xDC00) + 0x10000;
  const j = mode === "math" ? 0 : 1; // column index for CSS class.

  if (0x1D400 <= codePoint && codePoint < 0x1D6A4) {
    // wideLatinLetterData contains exactly 26 chars on each row.
    // So we can calculate the relevant row. No traverse necessary.
    const i = Math.floor((codePoint - 0x1D400) / 26);
    return [wideLatinLetterData[i][2], wideLatinLetterData[i][j]];
  } else if (0x1D7CE <= codePoint && codePoint <= 0x1D7FF) {
    // Numerals, ten per row.
    const i = Math.floor((codePoint - 0x1D7CE) / 10);
    return [wideNumeralData[i][2], wideNumeralData[i][j]];
  } else if (codePoint === 0x1D6A5 || codePoint === 0x1D6A6) {
    // dotless i or j
    return [wideLatinLetterData[0][2], wideLatinLetterData[0][j]];
  } else if (0x1D6A6 < codePoint && codePoint < 0x1D7CE) {
    // Greek letters. Not supported, yet.
    return ["", ""];
  } else {
    // We don't support any wide characters outside 1D400–1D7FF.
    throw new ParseError("Unsupported character: " + wideChar);
  }
};

/**
 * This file contains information about the options that the Parser carries
 * around with it while parsing. Data is held in an `Options` object, and when
 * recursing, a new `Options` object can be created with the `.with*` and
 * `.reset` functions.
 */
const sizeStyleMap = [// Each element contains [textsize, scriptsize, scriptscriptsize].
// The size mappings are taken from TeX with \normalsize=10pt.
[1, 1, 1], // size1: [5, 5, 5]              \tiny
[2, 1, 1], // size2: [6, 5, 5]
[3, 1, 1], // size3: [7, 5, 5]              \scriptsize
[4, 2, 1], // size4: [8, 6, 5]              \footnotesize
[5, 2, 1], // size5: [9, 6, 5]              \small
[6, 3, 1], // size6: [10, 7, 5]             \normalsize
[7, 4, 2], // size7: [12, 8, 6]             \large
[8, 6, 3], // size8: [14.4, 10, 7]          \Large
[9, 7, 6], // size9: [17.28, 12, 10]        \LARGE
[10, 8, 7], // size10: [20.74, 14.4, 12]     \huge
[11, 10, 9]];
const sizeMultipliers = [// fontMetrics.js:getGlobalMetrics also uses size indexes, so if
// you change size indexes, change that function.
0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.2, 1.44, 1.728, 2.074, 2.488];

const sizeAtStyle = function sizeAtStyle(size, style) {
  return style.size < 2 ? size : sizeStyleMap[size - 1][style.size - 1];
};

/**
 * This is the main options class. It contains the current style, size, color,
 * and font.
 *
 * Options objects should not be modified. To create a new Options with
 * different properties, call a `.having*` method.
 */
class Options {
  // A font family applies to a group of fonts (i.e. SansSerif), while a font
  // represents a specific font (i.e. SansSerif Bold).
  // See: https://tex.stackexchange.com/questions/22350/difference-between-textrm-and-mathrm

  /**
   * The base size index.
   */
  constructor(data) {
    this.style = void 0;
    this.color = void 0;
    this.size = void 0;
    this.textSize = void 0;
    this.phantom = void 0;
    this.font = void 0;
    this.fontFamily = void 0;
    this.fontWeight = void 0;
    this.fontShape = void 0;
    this.sizeMultiplier = void 0;
    this.maxSize = void 0;
    this._fontMetrics = void 0;
    this.style = data.style;
    this.color = data.color;
    this.size = data.size || Options.BASESIZE;
    this.textSize = data.textSize || this.size;
    this.phantom = !!data.phantom;
    this.font = data.font || "";
    this.fontFamily = data.fontFamily || "";
    this.fontWeight = data.fontWeight || '';
    this.fontShape = data.fontShape || '';
    this.sizeMultiplier = sizeMultipliers[this.size - 1];
    this.maxSize = data.maxSize;
    this._fontMetrics = undefined;
  }
  /**
   * Returns a new options object with the same properties as "this".  Properties
   * from "extension" will be copied to the new options object.
   */


  extend(extension) {
    const data = {
      style: this.style,
      size: this.size,
      textSize: this.textSize,
      color: this.color,
      phantom: this.phantom,
      font: this.font,
      fontFamily: this.fontFamily,
      fontWeight: this.fontWeight,
      fontShape: this.fontShape,
      maxSize: this.maxSize
    };

    for (const key in extension) {
      if (extension.hasOwnProperty(key)) {
        data[key] = extension[key];
      }
    }

    return new Options(data);
  }
  /**
   * Return an options object with the given style. If `this.style === style`,
   * returns `this`.
   */


  havingStyle(style) {
    if (this.style === style) {
      return this;
    } else {
      return this.extend({
        style: style,
        size: sizeAtStyle(this.textSize, style)
      });
    }
  }
  /**
   * Return an options object with a cramped version of the current style. If
   * the current style is cramped, returns `this`.
   */


  havingCrampedStyle() {
    return this.havingStyle(this.style.cramp());
  }
  /**
   * Return an options object with the given size and in at least `\textstyle`.
   * Returns `this` if appropriate.
   */


  havingSize(size) {
    if (this.size === size && this.textSize === size) {
      return this;
    } else {
      return this.extend({
        style: this.style.text(),
        size: size,
        textSize: size,
        sizeMultiplier: sizeMultipliers[size - 1]
      });
    }
  }
  /**
   * Like `this.havingSize(BASESIZE).havingStyle(style)`. If `style` is omitted,
   * changes to at least `\textstyle`.
   */


  havingBaseStyle(style) {
    style = style || this.style.text();
    const wantSize = sizeAtStyle(Options.BASESIZE, style);

    if (this.size === wantSize && this.textSize === Options.BASESIZE && this.style === style) {
      return this;
    } else {
      return this.extend({
        style: style,
        size: wantSize
      });
    }
  }
  /**
   * Remove the effect of sizing changes such as \Huge.
   * Keep the effect of the current style, such as \scriptstyle.
   */


  havingBaseSizing() {
    let size;

    switch (this.style.id) {
      case 4:
      case 5:
        size = 3; // normalsize in scriptstyle

        break;

      case 6:
      case 7:
        size = 1; // normalsize in scriptscriptstyle

        break;

      default:
        size = 6;
      // normalsize in textstyle or displaystyle
    }

    return this.extend({
      style: this.style.text(),
      size: size
    });
  }
  /**
   * Create a new options object with the given color.
   */


  withColor(color) {
    return this.extend({
      color: color
    });
  }
  /**
   * Create a new options object with "phantom" set to true.
   */


  withPhantom() {
    return this.extend({
      phantom: true
    });
  }
  /**
   * Creates a new options object with the given math font or old text font.
   * @type {[type]}
   */


  withFont(font) {
    return this.extend({
      font
    });
  }
  /**
   * Create a new options objects with the given fontFamily.
   */


  withTextFontFamily(fontFamily) {
    return this.extend({
      fontFamily,
      font: ""
    });
  }
  /**
   * Creates a new options object with the given font weight
   */


  withTextFontWeight(fontWeight) {
    return this.extend({
      fontWeight,
      font: ""
    });
  }
  /**
   * Creates a new options object with the given font weight
   */


  withTextFontShape(fontShape) {
    return this.extend({
      fontShape,
      font: ""
    });
  }
  /**
   * Return the CSS sizing classes required to switch from enclosing options
   * `oldOptions` to `this`. Returns an array of classes.
   */


  sizingClasses(oldOptions) {
    if (oldOptions.size !== this.size) {
      return ["sizing", "reset-size" + oldOptions.size, "size" + this.size];
    } else {
      return [];
    }
  }
  /**
   * Return the CSS sizing classes required to switch to the base size. Like
   * `this.havingSize(BASESIZE).sizingClasses(this)`.
   */


  baseSizingClasses() {
    if (this.size !== Options.BASESIZE) {
      return ["sizing", "reset-size" + this.size, "size" + Options.BASESIZE];
    } else {
      return [];
    }
  }
  /**
   * Return the font metrics for this size.
   */


  fontMetrics() {
    if (!this._fontMetrics) {
      this._fontMetrics = getGlobalMetrics(this.size);
    }

    return this._fontMetrics;
  }
  /**
   * A map of color names to CSS colors.
   * TODO(emily): Remove this when we have real macros
   */


  /**
   * Gets the CSS color of the current options object, accounting for the
   * `colorMap`.
   */
  getColor() {
    if (this.phantom) {
      return "transparent";
    } else if (this.color != null && Options.colorMap.hasOwnProperty(this.color)) {
      return Options.colorMap[this.color];
    } else {
      return this.color;
    }
  }

}

Options.BASESIZE = 6;
Options.colorMap = {
  "katex-blue": "#6495ed",
  "katex-orange": "#ffa500",
  "katex-pink": "#ff00af",
  "katex-red": "#df0030",
  "katex-green": "#28ae7b",
  "katex-gray": "gray",
  "katex-purple": "#9d38bd",
  "katex-blueA": "#ccfaff",
  "katex-blueB": "#80f6ff",
  "katex-blueC": "#63d9ea",
  "katex-blueD": "#11accd",
  "katex-blueE": "#0c7f99",
  "katex-tealA": "#94fff5",
  "katex-tealB": "#26edd5",
  "katex-tealC": "#01d1c1",
  "katex-tealD": "#01a995",
  "katex-tealE": "#208170",
  "katex-greenA": "#b6ffb0",
  "katex-greenB": "#8af281",
  "katex-greenC": "#74cf70",
  "katex-greenD": "#1fab54",
  "katex-greenE": "#0d923f",
  "katex-goldA": "#ffd0a9",
  "katex-goldB": "#ffbb71",
  "katex-goldC": "#ff9c39",
  "katex-goldD": "#e07d10",
  "katex-goldE": "#a75a05",
  "katex-redA": "#fca9a9",
  "katex-redB": "#ff8482",
  "katex-redC": "#f9685d",
  "katex-redD": "#e84d39",
  "katex-redE": "#bc2612",
  "katex-maroonA": "#ffbde0",
  "katex-maroonB": "#ff92c6",
  "katex-maroonC": "#ed5fa6",
  "katex-maroonD": "#ca337c",
  "katex-maroonE": "#9e034e",
  "katex-purpleA": "#ddd7ff",
  "katex-purpleB": "#c6b9fc",
  "katex-purpleC": "#aa87ff",
  "katex-purpleD": "#7854ab",
  "katex-purpleE": "#543b78",
  "katex-mintA": "#f5f9e8",
  "katex-mintB": "#edf2df",
  "katex-mintC": "#e0e5cc",
  "katex-grayA": "#f6f7f7",
  "katex-grayB": "#f0f1f2",
  "katex-grayC": "#e3e5e6",
  "katex-grayD": "#d6d8da",
  "katex-grayE": "#babec2",
  "katex-grayF": "#888d93",
  "katex-grayG": "#626569",
  "katex-grayH": "#3b3e40",
  "katex-grayI": "#21242c",
  "katex-kaBlue": "#314453",
  "katex-kaGreen": "#71B307"
};

/**
 * This file does conversion between units.  In particular, it provides
 * calculateSize to convert other units into ems.
 */
// Thus, multiplying a length by this number converts the length from units
// into pts.  Dividing the result by ptPerEm gives the number of ems
// *assuming* a font size of ptPerEm (normal size, normal style).

const ptPerUnit = {
  // https://en.wikibooks.org/wiki/LaTeX/Lengths and
  // https://tex.stackexchange.com/a/8263
  "pt": 1,
  // TeX point
  "mm": 7227 / 2540,
  // millimeter
  "cm": 7227 / 254,
  // centimeter
  "in": 72.27,
  // inch
  "bp": 803 / 800,
  // big (PostScript) points
  "pc": 12,
  // pica
  "dd": 1238 / 1157,
  // didot
  "cc": 14856 / 1157,
  // cicero (12 didot)
  "nd": 685 / 642,
  // new didot
  "nc": 1370 / 107,
  // new cicero (12 new didot)
  "sp": 1 / 65536,
  // scaled point (TeX's internal smallest unit)
  // https://tex.stackexchange.com/a/41371
  "px": 803 / 800 // \pdfpxdimen defaults to 1 bp in pdfTeX and LuaTeX

}; // Dictionary of relative units, for fast validity testing.

const relativeUnit = {
  "ex": true,
  "em": true,
  "mu": true
};

/**
 * Determine whether the specified unit (either a string defining the unit
 * or a "size" parse node containing a unit field) is valid.
 */
const validUnit = function validUnit(unit) {
  if (typeof unit !== "string") {
    unit = unit.unit;
  }

  return unit in ptPerUnit || unit in relativeUnit || unit === "ex";
};
/*
 * Convert a "size" parse node (with numeric "number" and string "unit" fields,
 * as parsed by functions.js argType "size") into a CSS em value for the
 * current style/scale.  `options` gives the current options.
 */

const calculateSize = function calculateSize(sizeValue, options) {
  let scale;

  if (sizeValue.unit in ptPerUnit) {
    // Absolute units
    scale = ptPerUnit[sizeValue.unit] // Convert unit to pt
    / options.fontMetrics().ptPerEm // Convert pt to CSS em
    / options.sizeMultiplier; // Unscale to make absolute units
  } else if (sizeValue.unit === "mu") {
    // `mu` units scale with scriptstyle/scriptscriptstyle.
    scale = options.fontMetrics().cssEmPerMu;
  } else {
    // Other relative units always refer to the *textstyle* font
    // in the current size.
    let unitOptions;

    if (options.style.isTight()) {
      // isTight() means current style is script/scriptscript.
      unitOptions = options.havingStyle(options.style.text());
    } else {
      unitOptions = options;
    } // TODO: In TeX these units are relative to the quad of the current
    // *text* font, e.g. cmr10. KaTeX instead uses values from the
    // comparably-sized *Computer Modern symbol* font. At 10pt, these
    // match. At 7pt and 5pt, they differ: cmr7=1.138894, cmsy7=1.170641;
    // cmr5=1.361133, cmsy5=1.472241. Consider $\scriptsize a\kern1emb$.
    // TeX \showlists shows a kern of 1.13889 * fontsize;
    // KaTeX shows a kern of 1.171 * fontsize.


    if (sizeValue.unit === "ex") {
      scale = unitOptions.fontMetrics().xHeight;
    } else if (sizeValue.unit === "em") {
      scale = unitOptions.fontMetrics().quad;
    } else {
      throw new ParseError("Invalid unit: '" + sizeValue.unit + "'");
    }

    if (unitOptions !== options) {
      scale *= unitOptions.sizeMultiplier / options.sizeMultiplier;
    }
  }

  return Math.min(sizeValue.number * scale, options.maxSize);
};

/* eslint no-console:0 */
// The following have to be loaded from Main-Italic font, using class mathit
const mathitLetters = ["\\imath", "ı", // dotless i
"\\jmath", "ȷ", // dotless j
"\\pounds", "\\mathsterling", "\\textsterling", "£"];
/**
 * Looks up the given symbol in fontMetrics, after applying any symbol
 * replacements defined in symbol.js
 */

const lookupSymbol = function lookupSymbol(value, // TODO(#963): Use a union type for this.
fontName, mode) {
  // Replace the value with its replaced value from symbol.js
  if (symbols[mode][value] && symbols[mode][value].replace) {
    value = symbols[mode][value].replace;
  }

  return {
    value: value,
    metrics: getCharacterMetrics(value, fontName, mode)
  };
};
/**
 * Makes a symbolNode after translation via the list of symbols in symbols.js.
 * Correctly pulls out metrics for the character, and optionally takes a list of
 * classes to be attached to the node.
 *
 * TODO: make argument order closer to makeSpan
 * TODO: add a separate argument for math class (e.g. `mop`, `mbin`), which
 * should if present come first in `classes`.
 * TODO(#953): Make `options` mandatory and always pass it in.
 */


const makeSymbol = function makeSymbol(value, fontName, mode, options, classes) {
  const lookup = lookupSymbol(value, fontName, mode);
  const metrics = lookup.metrics;
  value = lookup.value;
  let symbolNode;

  if (metrics) {
    let italic = metrics.italic;

    if (mode === "text" || options && options.font === "mathit") {
      italic = 0;
    }

    symbolNode = new SymbolNode(value, metrics.height, metrics.depth, italic, metrics.skew, metrics.width, classes);
  } else {
    // TODO(emily): Figure out a good way to only print this in development
    typeof console !== "undefined" && console.warn("No character metrics for '" + value + "' in style '" + fontName + "'");
    symbolNode = new SymbolNode(value, 0, 0, 0, 0, 0, classes);
  }

  if (options) {
    symbolNode.maxFontSize = options.sizeMultiplier;

    if (options.style.isTight()) {
      symbolNode.classes.push("mtight");
    }

    const color = options.getColor();

    if (color) {
      symbolNode.style.color = color;
    }
  }

  return symbolNode;
};
/**
 * Makes a symbol in Main-Regular or AMS-Regular.
 * Used for rel, bin, open, close, inner, and punct.
 *
 * TODO(#953): Make `options` mandatory and always pass it in.
 */


const mathsym = function mathsym(value, mode, options, classes) {
  if (classes === void 0) {
    classes = [];
  }

  // Decide what font to render the symbol in by its entry in the symbols
  // table.
  // Have a special case for when the value = \ because the \ is used as a
  // textord in unsupported command errors but cannot be parsed as a regular
  // text ordinal and is therefore not present as a symbol in the symbols
  // table for text, as well as a special case for boldsymbol because it
  // can be used for bold + and -
  if (options && options.font && options.font === "boldsymbol" && lookupSymbol(value, "Main-Bold", mode).metrics) {
    return makeSymbol(value, "Main-Bold", mode, options, classes.concat(["mathbf"]));
  } else if (value === "\\" || symbols[mode][value].font === "main") {
    return makeSymbol(value, "Main-Regular", mode, options, classes);
  } else {
    return makeSymbol(value, "AMS-Regular", mode, options, classes.concat(["amsrm"]));
  }
};
/**
 * Determines which of the two font names (Main-Italic and Math-Italic) and
 * corresponding style tags (maindefault or mathit) to use for default math font,
 * depending on the symbol.
 */


const mathdefault = function mathdefault(value, mode, options, classes) {
  if (/[0-9]/.test(value.charAt(0)) || // glyphs for \imath and \jmath do not exist in Math-Italic so we
  // need to use Main-Italic instead
  utils.contains(mathitLetters, value)) {
    return {
      fontName: "Main-Italic",
      fontClass: "mathit"
    };
  } else {
    return {
      fontName: "Math-Italic",
      fontClass: "mathdefault"
    };
  }
};
/**
 * Determines which of the font names (Main-Italic, Math-Italic, and Caligraphic)
 * and corresponding style tags (mathit, mathdefault, or mathcal) to use for font
 * "mathnormal", depending on the symbol.  Use this function instead of fontMap for
 * font "mathnormal".
 */


const mathnormal = function mathnormal(value, mode, options, classes) {
  if (utils.contains(mathitLetters, value)) {
    return {
      fontName: "Main-Italic",
      fontClass: "mathit"
    };
  } else if (/[0-9]/.test(value.charAt(0))) {
    return {
      fontName: "Caligraphic-Regular",
      fontClass: "mathcal"
    };
  } else {
    return {
      fontName: "Math-Italic",
      fontClass: "mathdefault"
    };
  }
};
/**
 * Determines which of the two font names (Main-Bold and Math-BoldItalic) and
 * corresponding style tags (mathbf or boldsymbol) to use for font "boldsymbol",
 * depending on the symbol.  Use this function instead of fontMap for font
 * "boldsymbol".
 */


const boldsymbol = function boldsymbol(value, mode, options, classes) {
  if (lookupSymbol(value, "Math-BoldItalic", mode).metrics) {
    return {
      fontName: "Math-BoldItalic",
      fontClass: "boldsymbol"
    };
  } else {
    // Some glyphs do not exist in Math-BoldItalic so we need to use
    // Main-Bold instead.
    return {
      fontName: "Main-Bold",
      fontClass: "mathbf"
    };
  }
};
/**
 * Makes either a mathord or textord in the correct font and color.
 */


const makeOrd = function makeOrd(group, options, type) {
  const mode = group.mode;
  const text = group.text;
  const classes = ["mord"]; // Math mode or Old font (i.e. \rm)

  const isFont = mode === "math" || mode === "text" && options.font;
  const fontOrFamily = isFont ? options.font : options.fontFamily;

  if (text.charCodeAt(0) === 0xD835) {
    // surrogate pairs get special treatment
    const _wideCharacterFont = wideCharacterFont(text, mode),
          wideFontName = _wideCharacterFont[0],
          wideFontClass = _wideCharacterFont[1];

    return makeSymbol(text, wideFontName, mode, options, classes.concat(wideFontClass));
  } else if (fontOrFamily) {
    let fontName;
    let fontClasses;

    if (fontOrFamily === "boldsymbol" || fontOrFamily === "mathnormal") {
      const fontData = fontOrFamily === "boldsymbol" ? boldsymbol(text, mode, options, classes) : mathnormal(text, mode, options, classes);
      fontName = fontData.fontName;
      fontClasses = [fontData.fontClass];
    } else if (utils.contains(mathitLetters, text)) {
      fontName = "Main-Italic";
      fontClasses = ["mathit"];
    } else if (isFont) {
      fontName = fontMap[fontOrFamily].fontName;
      fontClasses = [fontOrFamily];
    } else {
      fontName = retrieveTextFontName(fontOrFamily, options.fontWeight, options.fontShape);
      fontClasses = [fontOrFamily, options.fontWeight, options.fontShape];
    }

    if (lookupSymbol(text, fontName, mode).metrics) {
      return makeSymbol(text, fontName, mode, options, classes.concat(fontClasses));
    } else if (ligatures.hasOwnProperty(text) && fontName.substr(0, 10) === "Typewriter") {
      // Deconstruct ligatures in monospace fonts (\texttt, \tt).
      const parts = [];

      for (let i = 0; i < text.length; i++) {
        parts.push(makeSymbol(text[i], fontName, mode, options, classes.concat(fontClasses)));
      }

      return makeFragment(parts);
    }
  } // Makes a symbol in the default font for mathords and textords.


  if (type === "mathord") {
    const fontLookup = mathdefault(text, mode, options, classes);
    return makeSymbol(text, fontLookup.fontName, mode, options, classes.concat([fontLookup.fontClass]));
  } else if (type === "textord") {
    const font = symbols[mode][text] && symbols[mode][text].font;

    if (font === "ams") {
      const fontName = retrieveTextFontName("amsrm", options.fontWeight, options.fontShape);
      return makeSymbol(text, fontName, mode, options, classes.concat("amsrm", options.fontWeight, options.fontShape));
    } else if (font === "main" || !font) {
      const fontName = retrieveTextFontName("textrm", options.fontWeight, options.fontShape);
      return makeSymbol(text, fontName, mode, options, classes.concat(options.fontWeight, options.fontShape));
    } else {
      // fonts added by plugins
      const fontName = retrieveTextFontName(font, options.fontWeight, options.fontShape); // We add font name as a css class

      return makeSymbol(text, fontName, mode, options, classes.concat(fontName, options.fontWeight, options.fontShape));
    }
  } else {
    throw new Error("unexpected type: " + type + " in makeOrd");
  }
};
/**
 * Returns true if subsequent symbolNodes have the same classes, skew, maxFont,
 * and styles.
 */


const canCombine = (prev, next) => {
  if (createClass(prev.classes) !== createClass(next.classes) || prev.skew !== next.skew || prev.maxFontSize !== next.maxFontSize) {
    return false;
  }

  for (const style in prev.style) {
    if (prev.style.hasOwnProperty(style) && prev.style[style] !== next.style[style]) {
      return false;
    }
  }

  for (const style in next.style) {
    if (next.style.hasOwnProperty(style) && prev.style[style] !== next.style[style]) {
      return false;
    }
  }

  return true;
};
/**
 * Combine consequetive domTree.symbolNodes into a single symbolNode.
 * Note: this function mutates the argument.
 */


const tryCombineChars = chars => {
  for (let i = 0; i < chars.length - 1; i++) {
    const prev = chars[i];
    const next = chars[i + 1];

    if (prev instanceof SymbolNode && next instanceof SymbolNode && canCombine(prev, next)) {
      prev.text += next.text;
      prev.height = Math.max(prev.height, next.height);
      prev.depth = Math.max(prev.depth, next.depth); // Use the last character's italic correction since we use
      // it to add padding to the right of the span created from
      // the combined characters.

      prev.italic = next.italic;
      chars.splice(i + 1, 1);
      i--;
    }
  }

  return chars;
};
/**
 * Calculate the height, depth, and maxFontSize of an element based on its
 * children.
 */


const sizeElementFromChildren = function sizeElementFromChildren(elem) {
  let height = 0;
  let depth = 0;
  let maxFontSize = 0;

  for (let i = 0; i < elem.children.length; i++) {
    const child = elem.children[i];

    if (child.height > height) {
      height = child.height;
    }

    if (child.depth > depth) {
      depth = child.depth;
    }

    if (child.maxFontSize > maxFontSize) {
      maxFontSize = child.maxFontSize;
    }
  }

  elem.height = height;
  elem.depth = depth;
  elem.maxFontSize = maxFontSize;
};
/**
 * Makes a span with the given list of classes, list of children, and options.
 *
 * TODO(#953): Ensure that `options` is always provided (currently some call
 * sites don't pass it) and make the type below mandatory.
 * TODO: add a separate argument for math class (e.g. `mop`, `mbin`), which
 * should if present come first in `classes`.
 */


const makeSpan = function makeSpan(classes, children, options, style) {
  const span = new Span(classes, children, options, style);
  sizeElementFromChildren(span);
  return span;
}; // SVG one is simpler -- doesn't require height, depth, max-font setting.
// This is also a separate method for typesafety.


const makeSvgSpan = (classes, children, options, style) => new Span(classes, children, options, style);

const makeLineSpan = function makeLineSpan(className, options, thickness) {
  const line = makeSpan([className], [], options);
  line.height = thickness || options.fontMetrics().defaultRuleThickness;
  line.style.borderBottomWidth = line.height + "em";
  line.maxFontSize = 1.0;
  return line;
};
/**
 * Makes an anchor with the given href, list of classes, list of children,
 * and options.
 */


const makeAnchor = function makeAnchor(href, classes, children, options) {
  const anchor = new Anchor(href, classes, children, options);
  sizeElementFromChildren(anchor);
  return anchor;
};
/**
 * Makes a document fragment with the given list of children.
 */


const makeFragment = function makeFragment(children) {
  const fragment = new DocumentFragment(children);
  sizeElementFromChildren(fragment);
  return fragment;
};
/**
 * Wraps group in a span if it's a document fragment, allowing to apply classes
 * and styles
 */


const wrapFragment = function wrapFragment(group, options) {
  if (group instanceof DocumentFragment) {
    return makeSpan([], [group], options);
  }

  return group;
}; // These are exact object types to catch typos in the names of the optional fields.


// Computes the updated `children` list and the overall depth.
//
// This helper function for makeVList makes it easier to enforce type safety by
// allowing early exits (returns) in the logic.
const getVListChildrenAndDepth = function getVListChildrenAndDepth(params) {
  if (params.positionType === "individualShift") {
    const oldChildren = params.children;
    const children = [oldChildren[0]]; // Add in kerns to the list of params.children to get each element to be
    // shifted to the correct specified shift

    const depth = -oldChildren[0].shift - oldChildren[0].elem.depth;
    let currPos = depth;

    for (let i = 1; i < oldChildren.length; i++) {
      const diff = -oldChildren[i].shift - currPos - oldChildren[i].elem.depth;
      const size = diff - (oldChildren[i - 1].elem.height + oldChildren[i - 1].elem.depth);
      currPos = currPos + diff;
      children.push({
        type: "kern",
        size
      });
      children.push(oldChildren[i]);
    }

    return {
      children,
      depth
    };
  }

  let depth;

  if (params.positionType === "top") {
    // We always start at the bottom, so calculate the bottom by adding up
    // all the sizes
    let bottom = params.positionData;

    for (let i = 0; i < params.children.length; i++) {
      const child = params.children[i];
      bottom -= child.type === "kern" ? child.size : child.elem.height + child.elem.depth;
    }

    depth = bottom;
  } else if (params.positionType === "bottom") {
    depth = -params.positionData;
  } else {
    const firstChild = params.children[0];

    if (firstChild.type !== "elem") {
      throw new Error('First child must have type "elem".');
    }

    if (params.positionType === "shift") {
      depth = -firstChild.elem.depth - params.positionData;
    } else if (params.positionType === "firstBaseline") {
      depth = -firstChild.elem.depth;
    } else {
      throw new Error(`Invalid positionType ${params.positionType}.`);
    }
  }

  return {
    children: params.children,
    depth
  };
};
/**
 * Makes a vertical list by stacking elements and kerns on top of each other.
 * Allows for many different ways of specifying the positioning method.
 *
 * See VListParam documentation above.
 */


const makeVList = function makeVList(params, options) {
  const _getVListChildrenAndD = getVListChildrenAndDepth(params),
        children = _getVListChildrenAndD.children,
        depth = _getVListChildrenAndD.depth; // Create a strut that is taller than any list item. The strut is added to
  // each item, where it will determine the item's baseline. Since it has
  // `overflow:hidden`, the strut's top edge will sit on the item's line box's
  // top edge and the strut's bottom edge will sit on the item's baseline,
  // with no additional line-height spacing. This allows the item baseline to
  // be positioned precisely without worrying about font ascent and
  // line-height.


  let pstrutSize = 0;

  for (let i = 0; i < children.length; i++) {
    const child = children[i];

    if (child.type === "elem") {
      const elem = child.elem;
      pstrutSize = Math.max(pstrutSize, elem.maxFontSize, elem.height);
    }
  }

  pstrutSize += 2;
  const pstrut = makeSpan(["pstrut"], []);
  pstrut.style.height = pstrutSize + "em"; // Create a new list of actual children at the correct offsets

  const realChildren = [];
  let minPos = depth;
  let maxPos = depth;
  let currPos = depth;

  for (let i = 0; i < children.length; i++) {
    const child = children[i];

    if (child.type === "kern") {
      currPos += child.size;
    } else {
      const elem = child.elem;
      const classes = child.wrapperClasses || [];
      const style = child.wrapperStyle || {};
      const childWrap = makeSpan(classes, [pstrut, elem], undefined, style);
      childWrap.style.top = -pstrutSize - currPos - elem.depth + "em";

      if (child.marginLeft) {
        childWrap.style.marginLeft = child.marginLeft;
      }

      if (child.marginRight) {
        childWrap.style.marginRight = child.marginRight;
      }

      realChildren.push(childWrap);
      currPos += elem.height + elem.depth;
    }

    minPos = Math.min(minPos, currPos);
    maxPos = Math.max(maxPos, currPos);
  } // The vlist contents go in a table-cell with `vertical-align:bottom`.
  // This cell's bottom edge will determine the containing table's baseline
  // without overly expanding the containing line-box.


  const vlist = makeSpan(["vlist"], realChildren);
  vlist.style.height = maxPos + "em"; // A second row is used if necessary to represent the vlist's depth.

  let rows;

  if (minPos < 0) {
    // We will define depth in an empty span with display: table-cell.
    // It should render with the height that we define. But Chrome, in
    // contenteditable mode only, treats that span as if it contains some
    // text content. And that min-height over-rides our desired height.
    // So we put another empty span inside the depth strut span.
    const emptySpan = makeSpan([], []);
    const depthStrut = makeSpan(["vlist"], [emptySpan]);
    depthStrut.style.height = -minPos + "em"; // Safari wants the first row to have inline content; otherwise it
    // puts the bottom of the *second* row on the baseline.

    const topStrut = makeSpan(["vlist-s"], [new SymbolNode("\u200b")]);
    rows = [makeSpan(["vlist-r"], [vlist, topStrut]), makeSpan(["vlist-r"], [depthStrut])];
  } else {
    rows = [makeSpan(["vlist-r"], [vlist])];
  }

  const vtable = makeSpan(["vlist-t"], rows);

  if (rows.length === 2) {
    vtable.classes.push("vlist-t2");
  }

  vtable.height = maxPos;
  vtable.depth = -minPos;
  return vtable;
}; // Glue is a concept from TeX which is a flexible space between elements in
// either a vertical or horizontal list. In KaTeX, at least for now, it's
// static space between elements in a horizontal layout.


const makeGlue = (measurement, options) => {
  // Make an empty span for the space
  const rule = makeSpan(["mspace"], [], options);
  const size = calculateSize(measurement, options);
  rule.style.marginRight = `${size}em`;
  return rule;
}; // Takes font options, and returns the appropriate fontLookup name


const retrieveTextFontName = function retrieveTextFontName(fontFamily, fontWeight, fontShape) {
  let baseFontName = "";

  switch (fontFamily) {
    case "amsrm":
      baseFontName = "AMS";
      break;

    case "textrm":
      baseFontName = "Main";
      break;

    case "textsf":
      baseFontName = "SansSerif";
      break;

    case "texttt":
      baseFontName = "Typewriter";
      break;

    default:
      baseFontName = fontFamily;
    // use fonts added by a plugin
  }

  let fontStylesName;

  if (fontWeight === "textbf" && fontShape === "textit") {
    fontStylesName = "BoldItalic";
  } else if (fontWeight === "textbf") {
    fontStylesName = "Bold";
  } else if (fontWeight === "textit") {
    fontStylesName = "Italic";
  } else {
    fontStylesName = "Regular";
  }

  return `${baseFontName}-${fontStylesName}`;
};
/**
 * Maps TeX font commands to objects containing:
 * - variant: string used for "mathvariant" attribute in buildMathML.js
 * - fontName: the "style" parameter to fontMetrics.getCharacterMetrics
 */
// A map between tex font commands an MathML mathvariant attribute values


const fontMap = {
  // styles
  "mathbf": {
    variant: "bold",
    fontName: "Main-Bold"
  },
  "mathrm": {
    variant: "normal",
    fontName: "Main-Regular"
  },
  "textit": {
    variant: "italic",
    fontName: "Main-Italic"
  },
  "mathit": {
    variant: "italic",
    fontName: "Main-Italic"
  },
  // Default math font, "mathnormal" and "boldsymbol" are missing because they
  // require the use of several fonts: Main-Italic and Math-Italic for default
  // math font, Main-Italic, Math-Italic, Caligraphic for "mathnormal", and
  // Math-BoldItalic and Main-Bold for "boldsymbol".  This is handled by a
  // special case in makeOrd which ends up calling mathdefault, mathnormal,
  // and boldsymbol.
  // families
  "mathbb": {
    variant: "double-struck",
    fontName: "AMS-Regular"
  },
  "mathcal": {
    variant: "script",
    fontName: "Caligraphic-Regular"
  },
  "mathfrak": {
    variant: "fraktur",
    fontName: "Fraktur-Regular"
  },
  "mathscr": {
    variant: "script",
    fontName: "Script-Regular"
  },
  "mathsf": {
    variant: "sans-serif",
    fontName: "SansSerif-Regular"
  },
  "mathtt": {
    variant: "monospace",
    fontName: "Typewriter-Regular"
  }
};
const svgData = {
  //   path, width, height
  vec: ["vec", 0.471, 0.714],
  // values from the font glyph
  oiintSize1: ["oiintSize1", 0.957, 0.499],
  // oval to overlay the integrand
  oiintSize2: ["oiintSize2", 1.472, 0.659],
  oiiintSize1: ["oiiintSize1", 1.304, 0.499],
  oiiintSize2: ["oiiintSize2", 1.98, 0.659]
};

const staticSvg = function staticSvg(value, options) {
  // Create a span with inline SVG for the element.
  const _svgData$value = svgData[value],
        pathName = _svgData$value[0],
        width = _svgData$value[1],
        height = _svgData$value[2];
  const path = new PathNode(pathName);
  const svgNode = new SvgNode([path], {
    "width": width + "em",
    "height": height + "em",
    // Override CSS rule `.katex svg { width: 100% }`
    "style": "width:" + width + "em",
    "viewBox": "0 0 " + 1000 * width + " " + 1000 * height,
    "preserveAspectRatio": "xMinYMin"
  });
  const span = makeSvgSpan(["overlay"], [svgNode], options);
  span.height = height;
  span.style.height = height + "em";
  span.style.width = width + "em";
  return span;
};

var buildCommon = {
  fontMap,
  makeSymbol,
  mathsym,
  makeSpan,
  makeSvgSpan,
  makeLineSpan,
  makeAnchor,
  makeFragment,
  wrapFragment,
  makeVList,
  makeOrd,
  makeGlue,
  staticSvg,
  svgData,
  tryCombineChars
};

/**
 * Asserts that the node is of the given type and returns it with stricter
 * typing. Throws if the node's type does not match.
 */
function assertNodeType(node, type) {
  const typedNode = checkNodeType(node, type);

  if (!typedNode) {
    throw new Error(`Expected node of type ${type}, but got ` + (node ? `node of type ${node.type}` : String(node)));
  } // $FlowFixMe: Unsure why.


  return typedNode;
}
/**
 * Returns the node more strictly typed iff it is of the given type. Otherwise,
 * returns null.
 */

function checkNodeType(node, type) {
  if (node && node.type === type) {
    // The definition of ParseNode<TYPE> doesn't communicate to flow that
    // `type: TYPE` (as that's not explicitly mentioned anywhere), though that
    // happens to be true for all our value types.
    // $FlowFixMe
    return node;
  }

  return null;
}
/**
 * Asserts that the node is of the given type and returns it with stricter
 * typing. Throws if the node's type does not match.
 */

function assertAtomFamily(node, family) {
  const typedNode = checkAtomFamily(node, family);

  if (!typedNode) {
    throw new Error(`Expected node of type "atom" and family "${family}", but got ` + (node ? node.type === "atom" ? `atom of family ${node.family}` : `node of type ${node.type}` : String(node)));
  }

  return typedNode;
}
/**
 * Returns the node more strictly typed iff it is of the given type. Otherwise,
 * returns null.
 */

function checkAtomFamily(node, family) {
  return node && node.type === "atom" && node.family === family ? node : null;
}
/**
 * Returns the node more strictly typed iff it is of the given type. Otherwise,
 * returns null.
 */

function assertSymbolNodeType(node) {
  const typedNode = checkSymbolNodeType(node);

  if (!typedNode) {
    throw new Error(`Expected node of symbol group type, but got ` + (node ? `node of type ${node.type}` : String(node)));
  }

  return typedNode;
}
/**
 * Returns the node more strictly typed iff it is of the given type. Otherwise,
 * returns null.
 */

function checkSymbolNodeType(node) {
  if (node && (node.type === "atom" || NON_ATOMS.hasOwnProperty(node.type))) {
    // $FlowFixMe
    return node;
  }

  return null;
}

/**
 * Describes spaces between different classes of atoms.
 */
const thinspace = {
  number: 3,
  unit: "mu"
};
const mediumspace = {
  number: 4,
  unit: "mu"
};
const thickspace = {
  number: 5,
  unit: "mu"
}; // Making the type below exact with all optional fields doesn't work due to
// - https://github.com/facebook/flow/issues/4582
// - https://github.com/facebook/flow/issues/5688
// However, since *all* fields are optional, $Shape<> works as suggested in 5688
// above.

// Spacing relationships for display and text styles
const spacings = {
  mord: {
    mop: thinspace,
    mbin: mediumspace,
    mrel: thickspace,
    minner: thinspace
  },
  mop: {
    mord: thinspace,
    mop: thinspace,
    mrel: thickspace,
    minner: thinspace
  },
  mbin: {
    mord: mediumspace,
    mop: mediumspace,
    mopen: mediumspace,
    minner: mediumspace
  },
  mrel: {
    mord: thickspace,
    mop: thickspace,
    mopen: thickspace,
    minner: thickspace
  },
  mopen: {},
  mclose: {
    mop: thinspace,
    mbin: mediumspace,
    mrel: thickspace,
    minner: thinspace
  },
  mpunct: {
    mord: thinspace,
    mop: thinspace,
    mrel: thickspace,
    mopen: thinspace,
    mclose: thinspace,
    mpunct: thinspace,
    minner: thinspace
  },
  minner: {
    mord: thinspace,
    mop: thinspace,
    mbin: mediumspace,
    mrel: thickspace,
    mopen: thinspace,
    mpunct: thinspace,
    minner: thinspace
  }
}; // Spacing relationships for script and scriptscript styles

const tightSpacings = {
  mord: {
    mop: thinspace
  },
  mop: {
    mord: thinspace,
    mop: thinspace
  },
  mbin: {},
  mrel: {},
  mopen: {},
  mclose: {
    mop: thinspace
  },
  mpunct: {},
  minner: {
    mop: thinspace
  }
};

/**
 * All registered functions.
 * `functions.js` just exports this same dictionary again and makes it public.
 * `Parser.js` requires this dictionary.
 */
const _functions = {};
/**
 * All HTML builders. Should be only used in the `define*` and the `build*ML`
 * functions.
 */

const _htmlGroupBuilders = {};
/**
 * All MathML builders. Should be only used in the `define*` and the `build*ML`
 * functions.
 */

const _mathmlGroupBuilders = {};
function defineFunction(_ref) {
  let type = _ref.type,
      nodeType = _ref.nodeType,
      names = _ref.names,
      props = _ref.props,
      handler = _ref.handler,
      htmlBuilder = _ref.htmlBuilder,
      mathmlBuilder = _ref.mathmlBuilder;
  // Set default values of functions
  const data = {
    type,
    numArgs: props.numArgs,
    argTypes: props.argTypes,
    greediness: props.greediness === undefined ? 1 : props.greediness,
    allowedInText: !!props.allowedInText,
    allowedInMath: props.allowedInMath === undefined ? true : props.allowedInMath,
    numOptionalArgs: props.numOptionalArgs || 0,
    infix: !!props.infix,
    consumeMode: props.consumeMode,
    handler: handler
  };

  for (let i = 0; i < names.length; ++i) {
    // TODO: The value type of _functions should be a type union of all
    // possible `FunctionSpec<>` possibilities instead of `FunctionSpec<*>`,
    // which is an existential type.
    // $FlowFixMe
    _functions[names[i]] = data;
  }

  if (type) {
    if (htmlBuilder) {
      _htmlGroupBuilders[type] = htmlBuilder;
    }

    if (mathmlBuilder) {
      _mathmlGroupBuilders[type] = mathmlBuilder;
    }
  }
}
/**
 * Use this to register only the HTML and MathML builders for a function (e.g.
 * if the function's ParseNode is generated in Parser.js rather than via a
 * stand-alone handler provided to `defineFunction`).
 */

function defineFunctionBuilders(_ref2) {
  let type = _ref2.type,
      htmlBuilder = _ref2.htmlBuilder,
      mathmlBuilder = _ref2.mathmlBuilder;
  defineFunction({
    type,
    names: [],
    props: {
      numArgs: 0
    },

    handler() {
      throw new Error('Should never be called.');
    },

    htmlBuilder,
    mathmlBuilder
  });
} // Since the corresponding buildHTML/buildMathML function expects a
// list of elements, we normalize for different kinds of arguments

const ordargument = function ordargument(arg) {
  const node = checkNodeType(arg, "ordgroup");
  return node ? node.body : [arg];
};

/**
 * This file does the main work of building a domTree structure from a parse
 * tree. The entry point is the `buildHTML` function, which takes a parse tree.
 * Then, the buildExpression, buildGroup, and various groupBuilders functions
 * are called, to produce a final HTML tree.
 */
const makeSpan$1 = buildCommon.makeSpan; // Binary atoms (first class `mbin`) change into ordinary atoms (`mord`)
// depending on their surroundings. See TeXbook pg. 442-446, Rules 5 and 6,
// and the text before Rule 19.

const binLeftCanceller = ["leftmost", "mbin", "mopen", "mrel", "mop", "mpunct"];
const binRightCanceller = ["rightmost", "mrel", "mclose", "mpunct"];
const styleMap = {
  "display": Style$1.DISPLAY,
  "text": Style$1.TEXT,
  "script": Style$1.SCRIPT,
  "scriptscript": Style$1.SCRIPTSCRIPT
};
const DomEnum = {
  mord: "mord",
  mop: "mop",
  mbin: "mbin",
  mrel: "mrel",
  mopen: "mopen",
  mclose: "mclose",
  mpunct: "mpunct",
  minner: "minner"
};

/**
 * Take a list of nodes, build them in order, and return a list of the built
 * nodes. documentFragments are flattened into their contents, so the
 * returned list contains no fragments. `isRealGroup` is true if `expression`
 * is a real group (no atoms will be added on either side), as opposed to
 * a partial group (e.g. one created by \color). `surrounding` is an array
 * consisting type of nodes that will be added to the left and right.
 */
const buildExpression = function buildExpression(expression, options, isRealGroup, surrounding) {
  if (surrounding === void 0) {
    surrounding = [null, null];
  }

  // Parse expressions into `groups`.
  const groups = [];

  for (let i = 0; i < expression.length; i++) {
    const output = buildGroup(expression[i], options);

    if (output instanceof DocumentFragment) {
      const children = output.children;
      groups.push(...children);
    } else {
      groups.push(output);
    }
  } // If `expression` is a partial group, let the parent handle spacings
  // to avoid processing groups multiple times.


  if (!isRealGroup) {
    return groups;
  }

  let glueOptions = options;

  if (expression.length === 1) {
    const node = checkNodeType(expression[0], "sizing") || checkNodeType(expression[0], "styling");

    if (!node) ; else if (node.type === "sizing") {
      glueOptions = options.havingSize(node.size);
    } else if (node.type === "styling") {
      glueOptions = options.havingStyle(styleMap[node.style]);
    }
  } // Dummy spans for determining spacings between surrounding atoms.
  // If `expression` has no atoms on the left or right, class "leftmost"
  // or "rightmost", respectively, is used to indicate it.


  const dummyPrev = makeSpan$1([surrounding[0] || "leftmost"], [], options);
  const dummyNext = makeSpan$1([surrounding[1] || "rightmost"], [], options); // TODO: These code assumes that a node's math class is the first element
  // of its `classes` array. A later cleanup should ensure this, for
  // instance by changing the signature of `makeSpan`.
  // Before determining what spaces to insert, perform bin cancellation.
  // Binary operators change to ordinary symbols in some contexts.

  traverseNonSpaceNodes(groups, (node, prev) => {
    const prevType = prev.classes[0];
    const type = node.classes[0];

    if (prevType === "mbin" && utils.contains(binRightCanceller, type)) {
      prev.classes[0] = "mord";
    } else if (type === "mbin" && utils.contains(binLeftCanceller, prevType)) {
      node.classes[0] = "mord";
    }
  }, {
    node: dummyPrev
  }, dummyNext);
  traverseNonSpaceNodes(groups, (node, prev) => {
    const prevType = getTypeOfDomTree(prev);
    const type = getTypeOfDomTree(node); // 'mtight' indicates that the node is script or scriptscript style.

    const space = prevType && type ? node.hasClass("mtight") ? tightSpacings[prevType][type] : spacings[prevType][type] : null;

    if (space) {
      // Insert glue (spacing) after the `prev`.
      return buildCommon.makeGlue(space, glueOptions);
    }
  }, {
    node: dummyPrev
  }, dummyNext);
  return groups;
}; // Depth-first traverse non-space `nodes`, calling `callback` with the current and
// previous node as arguments, optionally returning a node to insert after the
// previous node. `prev` is an object with the previous node and `insertAfter`
// function to insert after it. `next` is a node that will be added to the right.
// Used for bin cancellation and inserting spacings.

const traverseNonSpaceNodes = function traverseNonSpaceNodes(nodes, callback, prev, next) {
  if (next) {
    // temporarily append the right node, if exists
    nodes.push(next);
  }

  let i = 0;

  for (; i < nodes.length; i++) {
    const node = nodes[i];
    const partialGroup = checkPartialGroup(node);

    if (partialGroup) {
      // Recursive DFS
      traverseNonSpaceNodes(partialGroup.children, callback, prev);
      continue;
    } // Ignore explicit spaces (e.g., \;, \,) when determining what implicit
    // spacing should go between atoms of different classes


    if (node.classes[0] === "mspace") {
      continue;
    }

    const result = callback(node, prev.node);

    if (result) {
      if (prev.insertAfter) {
        prev.insertAfter(result);
      } else {
        // insert at front
        nodes.unshift(result);
        i++;
      }
    }

    prev.node = node;

    prev.insertAfter = (index => n => {
      nodes.splice(index + 1, 0, n);
      i++;
    })(i);
  }

  if (next) {
    nodes.pop();
  }
}; // Check if given node is a partial group, i.e., does not affect spacing around.


const checkPartialGroup = function checkPartialGroup(node) {
  if (node instanceof DocumentFragment || node instanceof Anchor) {
    return node;
  }

  return null;
}; // Return the outermost node of a domTree.


const getOutermostNode = function getOutermostNode(node, side) {
  const partialGroup = checkPartialGroup(node);

  if (partialGroup) {
    const children = partialGroup.children;

    if (children.length) {
      if (side === "right") {
        return getOutermostNode(children[children.length - 1], "right");
      } else if (side === "left") {
        return getOutermostNode(children[0], "left");
      }
    }
  }

  return node;
}; // Return math atom class (mclass) of a domTree.
// If `side` is given, it will get the type of the outermost node at given side.


const getTypeOfDomTree = function getTypeOfDomTree(node, side) {
  if (!node) {
    return null;
  }

  if (side) {
    node = getOutermostNode(node, side);
  } // This makes a lot of assumptions as to where the type of atom
  // appears.  We should do a better job of enforcing this.


  return DomEnum[node.classes[0]] || null;
};
const makeNullDelimiter = function makeNullDelimiter(options, classes) {
  const moreClasses = ["nulldelimiter"].concat(options.baseSizingClasses());
  return makeSpan$1(classes.concat(moreClasses));
};
/**
 * buildGroup is the function that takes a group and calls the correct groupType
 * function for it. It also handles the interaction of size and style changes
 * between parents and children.
 */

const buildGroup = function buildGroup(group, options, baseOptions) {
  if (!group) {
    return makeSpan$1();
  }

  if (_htmlGroupBuilders[group.type]) {
    // Call the groupBuilders function
    let groupNode = _htmlGroupBuilders[group.type](group, options); // If the size changed between the parent and the current group, account
    // for that size difference.

    if (baseOptions && options.size !== baseOptions.size) {
      groupNode = makeSpan$1(options.sizingClasses(baseOptions), [groupNode], options);
      const multiplier = options.sizeMultiplier / baseOptions.sizeMultiplier;
      groupNode.height *= multiplier;
      groupNode.depth *= multiplier;
    }

    return groupNode;
  } else {
    throw new ParseError("Got group of unknown type: '" + group.type + "'");
  }
};
/**
 * Combine an array of HTML DOM nodes (e.g., the output of `buildExpression`)
 * into an unbreakable HTML node of class .base, with proper struts to
 * guarantee correct vertical extent.  `buildHTML` calls this repeatedly to
 * make up the entire expression as a sequence of unbreakable units.
 */

function buildHTMLUnbreakable(children, options) {
  // Compute height and depth of this chunk.
  const body = makeSpan$1(["base"], children, options); // Add strut, which ensures that the top of the HTML element falls at
  // the height of the expression, and the bottom of the HTML element
  // falls at the depth of the expression.
  // We used to have separate top and bottom struts, where the bottom strut
  // would like to use `vertical-align: top`, but in IE 9 this lowers the
  // baseline of the box to the bottom of this strut (instead of staying in
  // the normal place) so we use an absolute value for vertical-align instead.

  const strut = makeSpan$1(["strut"]);
  strut.style.height = body.height + body.depth + "em";
  strut.style.verticalAlign = -body.depth + "em";
  body.children.unshift(strut);
  return body;
}
/**
 * Take an entire parse tree, and build it into an appropriate set of HTML
 * nodes.
 */


function buildHTML(tree, options) {
  // Strip off outer tag wrapper for processing below.
  let tag = null;

  if (tree.length === 1 && tree[0].type === "tag") {
    tag = tree[0].tag;
    tree = tree[0].body;
  } // Build the expression contained in the tree


  const expression = buildExpression(tree, options, true);
  const children = []; // Create one base node for each chunk between potential line breaks.
  // The TeXBook [p.173] says "A formula will be broken only after a
  // relation symbol like $=$ or $<$ or $\rightarrow$, or after a binary
  // operation symbol like $+$ or $-$ or $\times$, where the relation or
  // binary operation is on the ``outer level'' of the formula (i.e., not
  // enclosed in {...} and not part of an \over construction)."

  let parts = [];

  for (let i = 0; i < expression.length; i++) {
    parts.push(expression[i]);

    if (expression[i].hasClass("mbin") || expression[i].hasClass("mrel") || expression[i].hasClass("allowbreak")) {
      // Put any post-operator glue on same line as operator.
      // Watch for \nobreak along the way, and stop at \newline.
      let nobreak = false;

      while (i < expression.length - 1 && expression[i + 1].hasClass("mspace") && !expression[i + 1].hasClass("newline")) {
        i++;
        parts.push(expression[i]);

        if (expression[i].hasClass("nobreak")) {
          nobreak = true;
        }
      } // Don't allow break if \nobreak among the post-operator glue.


      if (!nobreak) {
        children.push(buildHTMLUnbreakable(parts, options));
        parts = [];
      }
    } else if (expression[i].hasClass("newline")) {
      // Write the line except the newline
      parts.pop();

      if (parts.length > 0) {
        children.push(buildHTMLUnbreakable(parts, options));
        parts = [];
      } // Put the newline at the top level


      children.push(expression[i]);
    }
  }

  if (parts.length > 0) {
    children.push(buildHTMLUnbreakable(parts, options));
  } // Now, if there was a tag, build it too and append it as a final child.


  let tagChild;

  if (tag) {
    tagChild = buildHTMLUnbreakable(buildExpression(tag, options, true));
    tagChild.classes = ["tag"];
    children.push(tagChild);
  }

  const htmlNode = makeSpan$1(["katex-html"], children);
  htmlNode.setAttribute("aria-hidden", "true"); // Adjust the strut of the tag to be the maximum height of all children
  // (the height of the enclosing htmlNode) for proper vertical alignment.

  if (tagChild) {
    const strut = tagChild.children[0];
    strut.style.height = htmlNode.height + htmlNode.depth + "em";
    strut.style.verticalAlign = -htmlNode.depth + "em";
  }

  return htmlNode;
}

/**
 * These objects store data about MathML nodes. This is the MathML equivalent
 * of the types in domTree.js. Since MathML handles its own rendering, and
 * since we're mainly using MathML to improve accessibility, we don't manage
 * any of the styling state that the plain DOM nodes do.
 *
 * The `toNode` and `toMarkup` functions work simlarly to how they do in
 * domTree.js, creating namespaced DOM nodes and HTML text markup respectively.
 */
function newDocumentFragment(children) {
  return new DocumentFragment(children);
}
/**
 * This node represents a general purpose MathML node of any type. The
 * constructor requires the type of node to create (for example, `"mo"` or
 * `"mspace"`, corresponding to `<mo>` and `<mspace>` tags).
 */

class MathNode {
  constructor(type, children) {
    this.type = void 0;
    this.attributes = void 0;
    this.children = void 0;
    this.type = type;
    this.attributes = {};
    this.children = children || [];
  }
  /**
   * Sets an attribute on a MathML node. MathML depends on attributes to convey a
   * semantic content, so this is used heavily.
   */


  setAttribute(name, value) {
    this.attributes[name] = value;
  }
  /**
   * Gets an attribute on a MathML node.
   */


  getAttribute(name) {
    return this.attributes[name];
  }
  /**
   * Converts the math node into a MathML-namespaced DOM element.
   */


  toNode() {
    const node = document.createElementNS("http://www.w3.org/1998/Math/MathML", this.type);

    for (const attr in this.attributes) {
      if (Object.prototype.hasOwnProperty.call(this.attributes, attr)) {
        node.setAttribute(attr, this.attributes[attr]);
      }
    }

    for (let i = 0; i < this.children.length; i++) {
      node.appendChild(this.children[i].toNode());
    }

    return node;
  }
  /**
   * Converts the math node into an HTML markup string.
   */


  toMarkup() {
    let markup = "<" + this.type; // Add the attributes

    for (const attr in this.attributes) {
      if (Object.prototype.hasOwnProperty.call(this.attributes, attr)) {
        markup += " " + attr + "=\"";
        markup += utils.escape(this.attributes[attr]);
        markup += "\"";
      }
    }

    markup += ">";

    for (let i = 0; i < this.children.length; i++) {
      markup += this.children[i].toMarkup();
    }

    markup += "</" + this.type + ">";
    return markup;
  }
  /**
   * Converts the math node into a string, similar to innerText, but escaped.
   */


  toText() {
    return this.children.map(child => child.toText()).join("");
  }

}
/**
 * This node represents a piece of text.
 */

class TextNode {
  constructor(text) {
    this.text = void 0;
    this.text = text;
  }
  /**
   * Converts the text node into a DOM text node.
   */


  toNode() {
    return document.createTextNode(this.text);
  }
  /**
   * Converts the text node into escaped HTML markup
   * (representing the text itself).
   */


  toMarkup() {
    return utils.escape(this.toText());
  }
  /**
   * Converts the text node into a string
   * (representing the text iteself).
   */


  toText() {
    return this.text;
  }

}
/**
 * This node represents a space, but may render as <mspace.../> or as text,
 * depending on the width.
 */

class SpaceNode {
  /**
   * Create a Space node with width given in CSS ems.
   */
  constructor(width) {
    this.width = void 0;
    this.character = void 0;
    this.width = width; // See https://www.w3.org/TR/2000/WD-MathML2-20000328/chapter6.html
    // for a table of space-like characters.  We use Unicode
    // representations instead of &LongNames; as it's not clear how to
    // make the latter via document.createTextNode.

    if (width >= 0.05555 && width <= 0.05556) {
      this.character = "\u200a"; // &VeryThinSpace;
    } else if (width >= 0.1666 && width <= 0.1667) {
      this.character = "\u2009"; // &ThinSpace;
    } else if (width >= 0.2222 && width <= 0.2223) {
      this.character = "\u2005"; // &MediumSpace;
    } else if (width >= 0.2777 && width <= 0.2778) {
      this.character = "\u2005\u200a"; // &ThickSpace;
    } else if (width >= -0.05556 && width <= -0.05555) {
      this.character = "\u200a\u2063"; // &NegativeVeryThinSpace;
    } else if (width >= -0.1667 && width <= -0.1666) {
      this.character = "\u2009\u2063"; // &NegativeThinSpace;
    } else if (width >= -0.2223 && width <= -0.2222) {
      this.character = "\u205f\u2063"; // &NegativeMediumSpace;
    } else if (width >= -0.2778 && width <= -0.2777) {
      this.character = "\u2005\u2063"; // &NegativeThickSpace;
    } else {
      this.character = null;
    }
  }
  /**
   * Converts the math node into a MathML-namespaced DOM element.
   */


  toNode() {
    if (this.character) {
      return document.createTextNode(this.character);
    } else {
      const node = document.createElementNS("http://www.w3.org/1998/Math/MathML", "mspace");
      node.setAttribute("width", this.width + "em");
      return node;
    }
  }
  /**
   * Converts the math node into an HTML markup string.
   */


  toMarkup() {
    if (this.character) {
      return `<mtext>${this.character}</mtext>`;
    } else {
      return `<mspace width="${this.width}em"/>`;
    }
  }
  /**
   * Converts the math node into a string, similar to innerText.
   */


  toText() {
    if (this.character) {
      return this.character;
    } else {
      return " ";
    }
  }

}

var mathMLTree = {
  MathNode,
  TextNode,
  SpaceNode,
  newDocumentFragment
};

/**
 * This file converts a parse tree into a cooresponding MathML tree. The main
 * entry point is the `buildMathML` function, which takes a parse tree from the
 * parser.
 */

/**
 * Takes a symbol and converts it into a MathML text node after performing
 * optional replacement from symbols.js.
 */
const makeText = function makeText(text, mode, options) {
  if (symbols[mode][text] && symbols[mode][text].replace && text.charCodeAt(0) !== 0xD835 && !(ligatures.hasOwnProperty(text) && options && (options.fontFamily && options.fontFamily.substr(4, 2) === "tt" || options.font && options.font.substr(4, 2) === "tt"))) {
    text = symbols[mode][text].replace;
  }

  return new mathMLTree.TextNode(text);
};
/**
 * Wrap the given array of nodes in an <mrow> node if needed, i.e.,
 * unless the array has length 1.  Always returns a single node.
 */

const makeRow = function makeRow(body) {
  if (body.length === 1) {
    return body[0];
  } else {
    return new mathMLTree.MathNode("mrow", body);
  }
};
/**
 * Returns the math variant as a string or null if none is required.
 */

const getVariant = function getVariant(group, options) {
  // Handle \text... font specifiers as best we can.
  // MathML has a limited list of allowable mathvariant specifiers; see
  // https://www.w3.org/TR/MathML3/chapter3.html#presm.commatt
  if (options.fontFamily === "texttt") {
    return "monospace";
  } else if (options.fontFamily === "textsf") {
    if (options.fontShape === "textit" && options.fontWeight === "textbf") {
      return "sans-serif-bold-italic";
    } else if (options.fontShape === "textit") {
      return "sans-serif-italic";
    } else if (options.fontWeight === "textbf") {
      return "bold-sans-serif";
    } else {
      return "sans-serif";
    }
  } else if (options.fontShape === "textit" && options.fontWeight === "textbf") {
    return "bold-italic";
  } else if (options.fontShape === "textit") {
    return "italic";
  } else if (options.fontWeight === "textbf") {
    return "bold";
  }

  const font = options.font;

  if (!font || font === "mathnormal") {
    return null;
  }

  const mode = group.mode;

  if (font === "mathit") {
    return "italic";
  } else if (font === "boldsymbol") {
    return "bold-italic";
  }

  let text = group.text;

  if (utils.contains(["\\imath", "\\jmath"], text)) {
    return null;
  }

  if (symbols[mode][text] && symbols[mode][text].replace) {
    text = symbols[mode][text].replace;
  }

  const fontName = buildCommon.fontMap[font].fontName;

  if (getCharacterMetrics(text, fontName, mode)) {
    return buildCommon.fontMap[font].variant;
  }

  return null;
};
/**
 * Takes a list of nodes, builds them, and returns a list of the generated
 * MathML nodes.  Also combine consecutive <mtext> outputs into a single
 * <mtext> tag.
 */

const buildExpression$1 = function buildExpression(expression, options) {
  const groups = [];
  let lastGroup;

  for (let i = 0; i < expression.length; i++) {
    const group = buildGroup$1(expression[i], options);

    if (group instanceof MathNode && lastGroup instanceof MathNode) {
      // Concatenate adjacent <mtext>s
      if (group.type === 'mtext' && lastGroup.type === 'mtext' && group.getAttribute('mathvariant') === lastGroup.getAttribute('mathvariant')) {
        lastGroup.children.push(...group.children);
        continue; // Concatenate adjacent <mn>s
      } else if (group.type === 'mn' && lastGroup.type === 'mn') {
        lastGroup.children.push(...group.children);
        continue; // Concatenate <mn>...</mn> followed by <mi>.</mi>
      } else if (group.type === 'mi' && group.children.length === 1 && lastGroup.type === 'mn') {
        const child = group.children[0];

        if (child instanceof TextNode && child.text === '.') {
          lastGroup.children.push(...group.children);
          continue;
        }
      }
    }

    groups.push(group);
    lastGroup = group;
  } // TODO(kevinb): combine \\not with mrels and mords


  return groups;
};
/**
 * Equivalent to buildExpression, but wraps the elements in an <mrow>
 * if there's more than one.  Returns a single node instead of an array.
 */

const buildExpressionRow = function buildExpressionRow(expression, options) {
  return makeRow(buildExpression$1(expression, options));
};
/**
 * Takes a group from the parser and calls the appropriate groupBuilders function
 * on it to produce a MathML node.
 */

const buildGroup$1 = function buildGroup(group, options) {
  if (!group) {
    return new mathMLTree.MathNode("mrow");
  }

  if (_mathmlGroupBuilders[group.type]) {
    // Call the groupBuilders function
    const result = _mathmlGroupBuilders[group.type](group, options);
    return result;
  } else {
    throw new ParseError("Got group of unknown type: '" + group.type + "'");
  }
};
/**
 * Takes a full parse tree and settings and builds a MathML representation of
 * it. In particular, we put the elements from building the parse tree into a
 * <semantics> tag so we can also include that TeX source as an annotation.
 *
 * Note that we actually return a domTree element with a `<math>` inside it so
 * we can do appropriate styling.
 */

function buildMathML(tree, texExpression, options) {
  const expression = buildExpression$1(tree, options); // Wrap up the expression in an mrow so it is presented in the semantics
  // tag correctly, unless it's a single <mrow> or <mtable>.

  let wrapper;

  if (expression.length === 1 && expression[0] instanceof MathNode && utils.contains(["mrow", "mtable"], expression[0].type)) {
    wrapper = expression[0];
  } else {
    wrapper = new mathMLTree.MathNode("mrow", expression);
  } // Build a TeX annotation of the source


  const annotation = new mathMLTree.MathNode("annotation", [new mathMLTree.TextNode(texExpression)]);
  annotation.setAttribute("encoding", "application/x-tex");
  const semantics = new mathMLTree.MathNode("semantics", [wrapper, annotation]);
  const math = new mathMLTree.MathNode("math", [semantics]); // You can't style <math> nodes, so we wrap the node in a span.
  // NOTE: The span class is not typed to have <math> nodes as children, and
  // we don't want to make the children type more generic since the children
  // of span are expected to have more fields in `buildHtml` contexts.
  // $FlowFixMe

  return buildCommon.makeSpan(["katex-mathml"], [math]);
}

const optionsFromSettings = function optionsFromSettings(settings) {
  return new Options({
    style: settings.displayMode ? Style$1.DISPLAY : Style$1.TEXT,
    maxSize: settings.maxSize
  });
};

const displayWrap = function displayWrap(node, settings) {
  if (settings.displayMode) {
    const classes = ["katex-display"];

    if (settings.leqno) {
      classes.push("leqno");
    }

    if (settings.fleqn) {
      classes.push("fleqn");
    }

    node = buildCommon.makeSpan(classes, [node]);
  }

  return node;
};

const buildTree = function buildTree(tree, expression, settings) {
  const options = optionsFromSettings(settings);
  const mathMLNode = buildMathML(tree, expression, options);
  const htmlNode = buildHTML(tree, options);
  const katexNode = buildCommon.makeSpan(["katex"], [mathMLNode, htmlNode]);
  return displayWrap(katexNode, settings);
};
const buildHTMLTree = function buildHTMLTree(tree, expression, settings) {
  const options = optionsFromSettings(settings);
  const htmlNode = buildHTML(tree, options);
  const katexNode = buildCommon.makeSpan(["katex"], [htmlNode]);
  return displayWrap(katexNode, settings);
};

/**
 * This file provides support to buildMathML.js and buildHTML.js
 * for stretchy wide elements rendered from SVG files
 * and other CSS trickery.
 */
const stretchyCodePoint = {
  widehat: "^",
  widecheck: "ˇ",
  widetilde: "~",
  utilde: "~",
  overleftarrow: "\u2190",
  underleftarrow: "\u2190",
  xleftarrow: "\u2190",
  overrightarrow: "\u2192",
  underrightarrow: "\u2192",
  xrightarrow: "\u2192",
  underbrace: "\u23b5",
  overbrace: "\u23de",
  overleftrightarrow: "\u2194",
  underleftrightarrow: "\u2194",
  xleftrightarrow: "\u2194",
  Overrightarrow: "\u21d2",
  xRightarrow: "\u21d2",
  overleftharpoon: "\u21bc",
  xleftharpoonup: "\u21bc",
  overrightharpoon: "\u21c0",
  xrightharpoonup: "\u21c0",
  xLeftarrow: "\u21d0",
  xLeftrightarrow: "\u21d4",
  xhookleftarrow: "\u21a9",
  xhookrightarrow: "\u21aa",
  xmapsto: "\u21a6",
  xrightharpoondown: "\u21c1",
  xleftharpoondown: "\u21bd",
  xrightleftharpoons: "\u21cc",
  xleftrightharpoons: "\u21cb",
  xtwoheadleftarrow: "\u219e",
  xtwoheadrightarrow: "\u21a0",
  xlongequal: "=",
  xtofrom: "\u21c4",
  xrightleftarrows: "\u21c4",
  xrightequilibrium: "\u21cc",
  // Not a perfect match.
  xleftequilibrium: "\u21cb" // None better available.

};

const mathMLnode = function mathMLnode(label) {
  const node = new mathMLTree.MathNode("mo", [new mathMLTree.TextNode(stretchyCodePoint[label.substr(1)])]);
  node.setAttribute("stretchy", "true");
  return node;
}; // Many of the KaTeX SVG images have been adapted from glyphs in KaTeX fonts.
// Copyright (c) 2009-2010, Design Science, Inc. (<www.mathjax.org>)
// Copyright (c) 2014-2017 Khan Academy (<www.khanacademy.org>)
// Licensed under the SIL Open Font License, Version 1.1.
// See \nhttp://scripts.sil.org/OFL
// Very Long SVGs
//    Many of the KaTeX stretchy wide elements use a long SVG image and an
//    overflow: hidden tactic to achieve a stretchy image while avoiding
//    distortion of arrowheads or brace corners.
//    The SVG typically contains a very long (400 em) arrow.
//    The SVG is in a container span that has overflow: hidden, so the span
//    acts like a window that exposes only part of the  SVG.
//    The SVG always has a longer, thinner aspect ratio than the container span.
//    After the SVG fills 100% of the height of the container span,
//    there is a long arrow shaft left over. That left-over shaft is not shown.
//    Instead, it is sliced off because the span's CSS has overflow: hidden.
//    Thus, the reader sees an arrow that matches the subject matter width
//    without distortion.
//    Some functions, such as \cancel, need to vary their aspect ratio. These
//    functions do not get the overflow SVG treatment.
// Second Brush Stroke
//    Low resolution monitors struggle to display images in fine detail.
//    So browsers apply anti-aliasing. A long straight arrow shaft therefore
//    will sometimes appear as if it has a blurred edge.
//    To mitigate this, these SVG files contain a second "brush-stroke" on the
//    arrow shafts. That is, a second long thin rectangular SVG path has been
//    written directly on top of each arrow shaft. This reinforcement causes
//    some of the screen pixels to display as black instead of the anti-aliased
//    gray pixel that a  single path would generate. So we get arrow shafts
//    whose edges appear to be sharper.
// In the katexImagesData object just below, the dimensions all
// correspond to path geometry inside the relevant SVG.
// For example, \overrightarrow uses the same arrowhead as glyph U+2192
// from the KaTeX Main font. The scaling factor is 1000.
// That is, inside the font, that arrowhead is 522 units tall, which
// corresponds to 0.522 em inside the document.


const katexImagesData = {
  //   path(s), minWidth, height, align
  overrightarrow: [["rightarrow"], 0.888, 522, "xMaxYMin"],
  overleftarrow: [["leftarrow"], 0.888, 522, "xMinYMin"],
  underrightarrow: [["rightarrow"], 0.888, 522, "xMaxYMin"],
  underleftarrow: [["leftarrow"], 0.888, 522, "xMinYMin"],
  xrightarrow: [["rightarrow"], 1.469, 522, "xMaxYMin"],
  xleftarrow: [["leftarrow"], 1.469, 522, "xMinYMin"],
  Overrightarrow: [["doublerightarrow"], 0.888, 560, "xMaxYMin"],
  xRightarrow: [["doublerightarrow"], 1.526, 560, "xMaxYMin"],
  xLeftarrow: [["doubleleftarrow"], 1.526, 560, "xMinYMin"],
  overleftharpoon: [["leftharpoon"], 0.888, 522, "xMinYMin"],
  xleftharpoonup: [["leftharpoon"], 0.888, 522, "xMinYMin"],
  xleftharpoondown: [["leftharpoondown"], 0.888, 522, "xMinYMin"],
  overrightharpoon: [["rightharpoon"], 0.888, 522, "xMaxYMin"],
  xrightharpoonup: [["rightharpoon"], 0.888, 522, "xMaxYMin"],
  xrightharpoondown: [["rightharpoondown"], 0.888, 522, "xMaxYMin"],
  xlongequal: [["longequal"], 0.888, 334, "xMinYMin"],
  xtwoheadleftarrow: [["twoheadleftarrow"], 0.888, 334, "xMinYMin"],
  xtwoheadrightarrow: [["twoheadrightarrow"], 0.888, 334, "xMaxYMin"],
  overleftrightarrow: [["leftarrow", "rightarrow"], 0.888, 522],
  overbrace: [["leftbrace", "midbrace", "rightbrace"], 1.6, 548],
  underbrace: [["leftbraceunder", "midbraceunder", "rightbraceunder"], 1.6, 548],
  underleftrightarrow: [["leftarrow", "rightarrow"], 0.888, 522],
  xleftrightarrow: [["leftarrow", "rightarrow"], 1.75, 522],
  xLeftrightarrow: [["doubleleftarrow", "doublerightarrow"], 1.75, 560],
  xrightleftharpoons: [["leftharpoondownplus", "rightharpoonplus"], 1.75, 716],
  xleftrightharpoons: [["leftharpoonplus", "rightharpoondownplus"], 1.75, 716],
  xhookleftarrow: [["leftarrow", "righthook"], 1.08, 522],
  xhookrightarrow: [["lefthook", "rightarrow"], 1.08, 522],
  overlinesegment: [["leftlinesegment", "rightlinesegment"], 0.888, 522],
  underlinesegment: [["leftlinesegment", "rightlinesegment"], 0.888, 522],
  overgroup: [["leftgroup", "rightgroup"], 0.888, 342],
  undergroup: [["leftgroupunder", "rightgroupunder"], 0.888, 342],
  xmapsto: [["leftmapsto", "rightarrow"], 1.5, 522],
  xtofrom: [["leftToFrom", "rightToFrom"], 1.75, 528],
  // The next three arrows are from the mhchem package.
  // In mhchem.sty, min-length is 2.0em. But these arrows might appear in the
  // document as \xrightarrow or \xrightleftharpoons. Those have
  // min-length = 1.75em, so we set min-length on these next three to match.
  xrightleftarrows: [["baraboveleftarrow", "rightarrowabovebar"], 1.75, 901],
  xrightequilibrium: [["baraboveshortleftharpoon", "rightharpoonaboveshortbar"], 1.75, 716],
  xleftequilibrium: [["shortbaraboveleftharpoon", "shortrightharpoonabovebar"], 1.75, 716]
};

const groupLength = function groupLength(arg) {
  if (arg.type === "ordgroup") {
    return arg.body.length;
  } else {
    return 1;
  }
};

const svgSpan = function svgSpan(group, options) {
  // Create a span with inline SVG for the element.
  function buildSvgSpan_() {
    let viewBoxWidth = 400000; // default

    const label = group.label.substr(1);

    if (utils.contains(["widehat", "widecheck", "widetilde", "utilde"], label)) {
      // Each type in the `if` statement corresponds to one of the ParseNode
      // types below. This narrowing is required to access `grp.base`.
      const grp = group; // There are four SVG images available for each function.
      // Choose a taller image when there are more characters.

      const numChars = groupLength(grp.base);
      let viewBoxHeight;
      let pathName;
      let height;

      if (numChars > 5) {
        if (label === "widehat" || label === "widecheck") {
          viewBoxHeight = 420;
          viewBoxWidth = 2364;
          height = 0.42;
          pathName = label + "4";
        } else {
          viewBoxHeight = 312;
          viewBoxWidth = 2340;
          height = 0.34;
          pathName = "tilde4";
        }
      } else {
        const imgIndex = [1, 1, 2, 2, 3, 3][numChars];

        if (label === "widehat" || label === "widecheck") {
          viewBoxWidth = [0, 1062, 2364, 2364, 2364][imgIndex];
          viewBoxHeight = [0, 239, 300, 360, 420][imgIndex];
          height = [0, 0.24, 0.3, 0.3, 0.36, 0.42][imgIndex];
          pathName = label + imgIndex;
        } else {
          viewBoxWidth = [0, 600, 1033, 2339, 2340][imgIndex];
          viewBoxHeight = [0, 260, 286, 306, 312][imgIndex];
          height = [0, 0.26, 0.286, 0.3, 0.306, 0.34][imgIndex];
          pathName = "tilde" + imgIndex;
        }
      }

      const path = new PathNode(pathName);
      const svgNode = new SvgNode([path], {
        "width": "100%",
        "height": height + "em",
        "viewBox": `0 0 ${viewBoxWidth} ${viewBoxHeight}`,
        "preserveAspectRatio": "none"
      });
      return {
        span: buildCommon.makeSvgSpan([], [svgNode], options),
        minWidth: 0,
        height
      };
    } else {
      const spans = [];
      const data = katexImagesData[label];
      const paths = data[0],
            minWidth = data[1],
            viewBoxHeight = data[2];
      const height = viewBoxHeight / 1000;
      const numSvgChildren = paths.length;
      let widthClasses;
      let aligns;

      if (numSvgChildren === 1) {
        // $FlowFixMe: All these cases must be of the 4-tuple type.
        const align1 = data[3];
        widthClasses = ["hide-tail"];
        aligns = [align1];
      } else if (numSvgChildren === 2) {
        widthClasses = ["halfarrow-left", "halfarrow-right"];
        aligns = ["xMinYMin", "xMaxYMin"];
      } else if (numSvgChildren === 3) {
        widthClasses = ["brace-left", "brace-center", "brace-right"];
        aligns = ["xMinYMin", "xMidYMin", "xMaxYMin"];
      } else {
        throw new Error(`Correct katexImagesData or update code here to support
                    ${numSvgChildren} children.`);
      }

      for (let i = 0; i < numSvgChildren; i++) {
        const path = new PathNode(paths[i]);
        const svgNode = new SvgNode([path], {
          "width": "400em",
          "height": height + "em",
          "viewBox": `0 0 ${viewBoxWidth} ${viewBoxHeight}`,
          "preserveAspectRatio": aligns[i] + " slice"
        });
        const span = buildCommon.makeSvgSpan([widthClasses[i]], [svgNode], options);

        if (numSvgChildren === 1) {
          return {
            span,
            minWidth,
            height
          };
        } else {
          span.style.height = height + "em";
          spans.push(span);
        }
      }

      return {
        span: buildCommon.makeSpan(["stretchy"], spans, options),
        minWidth,
        height
      };
    }
  } // buildSvgSpan_()


  const _buildSvgSpan_ = buildSvgSpan_(),
        span = _buildSvgSpan_.span,
        minWidth = _buildSvgSpan_.minWidth,
        height = _buildSvgSpan_.height; // Note that we are returning span.depth = 0.
  // Any adjustments relative to the baseline must be done in buildHTML.


  span.height = height;
  span.style.height = height + "em";

  if (minWidth > 0) {
    span.style.minWidth = minWidth + "em";
  }

  return span;
};

const encloseSpan = function encloseSpan(inner, label, pad, options) {
  // Return an image span for \cancel, \bcancel, \xcancel, or \fbox
  let img;
  const totalHeight = inner.height + inner.depth + 2 * pad;

  if (/fbox|color/.test(label)) {
    img = buildCommon.makeSpan(["stretchy", label], [], options);

    if (label === "fbox") {
      const color = options.color && options.getColor();

      if (color) {
        img.style.borderColor = color;
      }
    }
  } else {
    // \cancel, \bcancel, or \xcancel
    // Since \cancel's SVG is inline and it omits the viewBox attribute,
    // its stroke-width will not vary with span area.
    const lines = [];

    if (/^[bx]cancel$/.test(label)) {
      lines.push(new LineNode({
        "x1": "0",
        "y1": "0",
        "x2": "100%",
        "y2": "100%",
        "stroke-width": "0.046em"
      }));
    }

    if (/^x?cancel$/.test(label)) {
      lines.push(new LineNode({
        "x1": "0",
        "y1": "100%",
        "x2": "100%",
        "y2": "0",
        "stroke-width": "0.046em"
      }));
    }

    const svgNode = new SvgNode(lines, {
      "width": "100%",
      "height": totalHeight + "em"
    });
    img = buildCommon.makeSvgSpan([], [svgNode], options);
  }

  img.height = totalHeight;
  img.style.height = totalHeight + "em";
  return img;
};

var stretchy = {
  encloseSpan,
  mathMLnode,
  svgSpan
};

// NOTE: Unlike most `htmlBuilder`s, this one handles not only "accent", but
const htmlBuilder = (grp, options) => {
  // Accents are handled in the TeXbook pg. 443, rule 12.
  let base;
  let group;
  const supSub = checkNodeType(grp, "supsub");
  let supSubGroup;

  if (supSub) {
    // If our base is a character box, and we have superscripts and
    // subscripts, the supsub will defer to us. In particular, we want
    // to attach the superscripts and subscripts to the inner body (so
    // that the position of the superscripts and subscripts won't be
    // affected by the height of the accent). We accomplish this by
    // sticking the base of the accent into the base of the supsub, and
    // rendering that, while keeping track of where the accent is.
    // The real accent group is the base of the supsub group
    group = assertNodeType(supSub.base, "accent"); // The character box is the base of the accent group

    base = group.base; // Stick the character box into the base of the supsub group

    supSub.base = base; // Rerender the supsub group with its new base, and store that
    // result.

    supSubGroup = assertSpan(buildGroup(supSub, options)); // reset original base

    supSub.base = group;
  } else {
    group = assertNodeType(grp, "accent");
    base = group.base;
  } // Build the base group


  const body = buildGroup(base, options.havingCrampedStyle()); // Does the accent need to shift for the skew of a character?

  const mustShift = group.isShifty && utils.isCharacterBox(base); // Calculate the skew of the accent. This is based on the line "If the
  // nucleus is not a single character, let s = 0; otherwise set s to the
  // kern amount for the nucleus followed by the \skewchar of its font."
  // Note that our skew metrics are just the kern between each character
  // and the skewchar.

  let skew = 0;

  if (mustShift) {
    // If the base is a character box, then we want the skew of the
    // innermost character. To do that, we find the innermost character:
    const baseChar = utils.getBaseElem(base); // Then, we render its group to get the symbol inside it

    const baseGroup = buildGroup(baseChar, options.havingCrampedStyle()); // Finally, we pull the skew off of the symbol.

    skew = assertSymbolDomNode(baseGroup).skew; // Note that we now throw away baseGroup, because the layers we
    // removed with getBaseElem might contain things like \color which
    // we can't get rid of.
    // TODO(emily): Find a better way to get the skew
  } // calculate the amount of space between the body and the accent


  let clearance = Math.min(body.height, options.fontMetrics().xHeight); // Build the accent

  let accentBody;

  if (!group.isStretchy) {
    let accent;
    let width;

    if (group.label === "\\vec") {
      // Before version 0.9, \vec used the combining font glyph U+20D7.
      // But browsers, especially Safari, are not consistent in how they
      // render combining characters when not preceded by a character.
      // So now we use an SVG.
      // If Safari reforms, we should consider reverting to the glyph.
      accent = buildCommon.staticSvg("vec", options);
      width = buildCommon.svgData.vec[1];
    } else {
      accent = buildCommon.makeSymbol(group.label, "Main-Regular", group.mode, options); // Remove the italic correction of the accent, because it only serves to
      // shift the accent over to a place we don't want.

      accent.italic = 0;
      width = accent.width;
    }

    accentBody = buildCommon.makeSpan(["accent-body"], [accent]); // "Full" accents expand the width of the resulting symbol to be
    // at least the width of the accent, and overlap directly onto the
    // character without any vertical offset.

    const accentFull = group.label === "\\textcircled";

    if (accentFull) {
      accentBody.classes.push('accent-full');
      clearance = body.height;
    } // Shift the accent over by the skew.


    let left = skew; // CSS defines `.katex .accent .accent-body:not(.accent-full) { width: 0 }`
    // so that the accent doesn't contribute to the bounding box.
    // We need to shift the character by its width (effectively half
    // its width) to compensate.

    if (!accentFull) {
      left -= width / 2;
    }

    accentBody.style.left = left + "em"; // \textcircled uses the \bigcirc glyph, so it needs some
    // vertical adjustment to match LaTeX.

    if (group.label === "\\textcircled") {
      accentBody.style.top = ".2em";
    }

    accentBody = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: body
      }, {
        type: "kern",
        size: -clearance
      }, {
        type: "elem",
        elem: accentBody
      }]
    }, options);
  } else {
    accentBody = stretchy.svgSpan(group, options);
    accentBody = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: body
      }, {
        type: "elem",
        elem: accentBody,
        wrapperClasses: ["svg-align"],
        wrapperStyle: skew > 0 ? {
          width: `calc(100% - ${2 * skew}em)`,
          marginLeft: `${2 * skew}em`
        } : undefined
      }]
    }, options);
  }

  const accentWrap = buildCommon.makeSpan(["mord", "accent"], [accentBody], options);

  if (supSubGroup) {
    // Here, we replace the "base" child of the supsub with our newly
    // generated accent.
    supSubGroup.children[0] = accentWrap; // Since we don't rerun the height calculation after replacing the
    // accent, we manually recalculate height.

    supSubGroup.height = Math.max(accentWrap.height, supSubGroup.height); // Accents should always be ords, even when their innards are not.

    supSubGroup.classes[0] = "mord";
    return supSubGroup;
  } else {
    return accentWrap;
  }
};

const mathmlBuilder = (group, options) => {
  const accentNode = group.isStretchy ? stretchy.mathMLnode(group.label) : new mathMLTree.MathNode("mo", [makeText(group.label, group.mode)]);
  const node = new mathMLTree.MathNode("mover", [buildGroup$1(group.base, options), accentNode]);
  node.setAttribute("accent", "true");
  return node;
};

const NON_STRETCHY_ACCENT_REGEX = new RegExp(["\\acute", "\\grave", "\\ddot", "\\tilde", "\\bar", "\\breve", "\\check", "\\hat", "\\vec", "\\dot", "\\mathring"].map(accent => `\\${accent}`).join("|")); // Accents

defineFunction({
  type: "accent",
  names: ["\\acute", "\\grave", "\\ddot", "\\tilde", "\\bar", "\\breve", "\\check", "\\hat", "\\vec", "\\dot", "\\mathring", "\\widecheck", "\\widehat", "\\widetilde", "\\overrightarrow", "\\overleftarrow", "\\Overrightarrow", "\\overleftrightarrow", "\\overgroup", "\\overlinesegment", "\\overleftharpoon", "\\overrightharpoon"],
  props: {
    numArgs: 1
  },
  handler: (context, args) => {
    const base = args[0];
    const isStretchy = !NON_STRETCHY_ACCENT_REGEX.test(context.funcName);
    const isShifty = !isStretchy || context.funcName === "\\widehat" || context.funcName === "\\widetilde" || context.funcName === "\\widecheck";
    return {
      type: "accent",
      mode: context.parser.mode,
      label: context.funcName,
      isStretchy: isStretchy,
      isShifty: isShifty,
      base: base
    };
  },
  htmlBuilder,
  mathmlBuilder
}); // Text-mode accents

defineFunction({
  type: "accent",
  names: ["\\'", "\\`", "\\^", "\\~", "\\=", "\\u", "\\.", '\\"', "\\r", "\\H", "\\v", "\\textcircled"],
  props: {
    numArgs: 1,
    allowedInText: true,
    allowedInMath: false
  },
  handler: (context, args) => {
    const base = args[0];
    return {
      type: "accent",
      mode: context.parser.mode,
      label: context.funcName,
      isStretchy: false,
      isShifty: true,
      base: base
    };
  },
  htmlBuilder,
  mathmlBuilder
});

// Horizontal overlap functions
defineFunction({
  type: "accentUnder",
  names: ["\\underleftarrow", "\\underrightarrow", "\\underleftrightarrow", "\\undergroup", "\\underlinesegment", "\\utilde"],
  props: {
    numArgs: 1
  },
  handler: (_ref, args) => {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const base = args[0];
    return {
      type: "accentUnder",
      mode: parser.mode,
      label: funcName,
      base: base
    };
  },
  htmlBuilder: (group, options) => {
    // Treat under accents much like underlines.
    const innerGroup = buildGroup(group.base, options);
    const accentBody = stretchy.svgSpan(group, options);
    const kern = group.label === "\\utilde" ? 0.12 : 0; // Generate the vlist, with the appropriate kerns

    const vlist = buildCommon.makeVList({
      positionType: "bottom",
      positionData: accentBody.height + kern,
      children: [{
        type: "elem",
        elem: accentBody,
        wrapperClasses: ["svg-align"]
      }, {
        type: "kern",
        size: kern
      }, {
        type: "elem",
        elem: innerGroup
      }]
    }, options);
    return buildCommon.makeSpan(["mord", "accentunder"], [vlist], options);
  },
  mathmlBuilder: (group, options) => {
    const accentNode = stretchy.mathMLnode(group.label);
    const node = new mathMLTree.MathNode("munder", [buildGroup$1(group.base, options), accentNode]);
    node.setAttribute("accentunder", "true");
    return node;
  }
});

// Stretchy arrows with an optional argument
defineFunction({
  type: "xArrow",
  names: ["\\xleftarrow", "\\xrightarrow", "\\xLeftarrow", "\\xRightarrow", "\\xleftrightarrow", "\\xLeftrightarrow", "\\xhookleftarrow", "\\xhookrightarrow", "\\xmapsto", "\\xrightharpoondown", "\\xrightharpoonup", "\\xleftharpoondown", "\\xleftharpoonup", "\\xrightleftharpoons", "\\xleftrightharpoons", "\\xlongequal", "\\xtwoheadrightarrow", "\\xtwoheadleftarrow", "\\xtofrom", // The next 3 functions are here to support the mhchem extension.
  // Direct use of these functions is discouraged and may break someday.
  "\\xrightleftarrows", "\\xrightequilibrium", "\\xleftequilibrium"],
  props: {
    numArgs: 1,
    numOptionalArgs: 1
  },

  handler(_ref, args, optArgs) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    return {
      type: "xArrow",
      mode: parser.mode,
      label: funcName,
      body: args[0],
      below: optArgs[0]
    };
  },

  // Flow is unable to correctly infer the type of `group`, even though it's
  // unamibiguously determined from the passed-in `type` above.
  htmlBuilder(group, options) {
    const style = options.style; // Build the argument groups in the appropriate style.
    // Ref: amsmath.dtx:   \hbox{$\scriptstyle\mkern#3mu{#6}\mkern#4mu$}%
    // Some groups can return document fragments.  Handle those by wrapping
    // them in a span.

    let newOptions = options.havingStyle(style.sup());
    const upperGroup = buildCommon.wrapFragment(buildGroup(group.body, newOptions, options), options);
    upperGroup.classes.push("x-arrow-pad");
    let lowerGroup;

    if (group.below) {
      // Build the lower group
      newOptions = options.havingStyle(style.sub());
      lowerGroup = buildCommon.wrapFragment(buildGroup(group.below, newOptions, options), options);
      lowerGroup.classes.push("x-arrow-pad");
    }

    const arrowBody = stretchy.svgSpan(group, options); // Re shift: Note that stretchy.svgSpan returned arrowBody.depth = 0.
    // The point we want on the math axis is at 0.5 * arrowBody.height.

    const arrowShift = -options.fontMetrics().axisHeight + 0.5 * arrowBody.height; // 2 mu kern. Ref: amsmath.dtx: #7\if0#2\else\mkern#2mu\fi

    let upperShift = -options.fontMetrics().axisHeight - 0.5 * arrowBody.height - 0.111; // 0.111 em = 2 mu

    if (upperGroup.depth > 0.25 || group.label === "\\xleftequilibrium") {
      upperShift -= upperGroup.depth; // shift up if depth encroaches
    } // Generate the vlist


    let vlist;

    if (lowerGroup) {
      const lowerShift = -options.fontMetrics().axisHeight + lowerGroup.height + 0.5 * arrowBody.height + 0.111;
      vlist = buildCommon.makeVList({
        positionType: "individualShift",
        children: [{
          type: "elem",
          elem: upperGroup,
          shift: upperShift
        }, {
          type: "elem",
          elem: arrowBody,
          shift: arrowShift
        }, {
          type: "elem",
          elem: lowerGroup,
          shift: lowerShift
        }]
      }, options);
    } else {
      vlist = buildCommon.makeVList({
        positionType: "individualShift",
        children: [{
          type: "elem",
          elem: upperGroup,
          shift: upperShift
        }, {
          type: "elem",
          elem: arrowBody,
          shift: arrowShift
        }]
      }, options);
    } // $FlowFixMe: Replace this with passing "svg-align" into makeVList.


    vlist.children[0].children[0].children[1].classes.push("svg-align");
    return buildCommon.makeSpan(["mrel", "x-arrow"], [vlist], options);
  },

  mathmlBuilder(group, options) {
    const arrowNode = stretchy.mathMLnode(group.label);
    let node;
    let lowerNode;

    if (group.body) {
      const upperNode = buildGroup$1(group.body, options);

      if (group.below) {
        lowerNode = buildGroup$1(group.below, options);
        node = new mathMLTree.MathNode("munderover", [arrowNode, lowerNode, upperNode]);
      } else {
        node = new mathMLTree.MathNode("mover", [arrowNode, upperNode]);
      }
    } else if (group.below) {
      lowerNode = buildGroup$1(group.below, options);
      node = new mathMLTree.MathNode("munder", [arrowNode, lowerNode]);
    } else {
      node = new mathMLTree.MathNode("mover", [arrowNode]);
    }

    return node;
  }

});

// {123} and converts into symbol with code 123.  It is used by the *macro*
// \char defined in macros.js.

defineFunction({
  type: "textord",
  names: ["\\@char"],
  props: {
    numArgs: 1,
    allowedInText: true
  },

  handler(_ref, args) {
    let parser = _ref.parser;
    const arg = assertNodeType(args[0], "ordgroup");
    const group = arg.body;
    let number = "";

    for (let i = 0; i < group.length; i++) {
      const node = assertNodeType(group[i], "textord");
      number += node.text;
    }

    const code = parseInt(number);

    if (isNaN(code)) {
      throw new ParseError(`\\@char has non-numeric argument ${number}`);
    }

    return {
      type: "textord",
      mode: parser.mode,
      text: String.fromCharCode(code)
    };
  }

});

const htmlBuilder$1 = (group, options) => {
  const elements = buildExpression(group.body, options.withColor(group.color), false); // \color isn't supposed to affect the type of the elements it contains.
  // To accomplish this, we wrap the results in a fragment, so the inner
  // elements will be able to directly interact with their neighbors. For
  // example, `\color{red}{2 +} 3` has the same spacing as `2 + 3`

  return buildCommon.makeFragment(elements);
};

const mathmlBuilder$1 = (group, options) => {
  const inner = buildExpression$1(group.body, options);
  const node = new mathMLTree.MathNode("mstyle", inner);
  node.setAttribute("mathcolor", group.color);
  return node;
};

defineFunction({
  type: "color",
  names: ["\\textcolor"],
  props: {
    numArgs: 2,
    allowedInText: true,
    greediness: 3,
    argTypes: ["color", "original"]
  },

  handler(_ref, args) {
    let parser = _ref.parser;
    const color = assertNodeType(args[0], "color-token").color;
    const body = args[1];
    return {
      type: "color",
      mode: parser.mode,
      color,
      body: ordargument(body)
    };
  },

  htmlBuilder: htmlBuilder$1,
  mathmlBuilder: mathmlBuilder$1
}); // TODO(kevinb): define these using macros

defineFunction({
  type: "color",
  names: ["\\blue", "\\orange", "\\pink", "\\red", "\\green", "\\gray", "\\purple", "\\blueA", "\\blueB", "\\blueC", "\\blueD", "\\blueE", "\\tealA", "\\tealB", "\\tealC", "\\tealD", "\\tealE", "\\greenA", "\\greenB", "\\greenC", "\\greenD", "\\greenE", "\\goldA", "\\goldB", "\\goldC", "\\goldD", "\\goldE", "\\redA", "\\redB", "\\redC", "\\redD", "\\redE", "\\maroonA", "\\maroonB", "\\maroonC", "\\maroonD", "\\maroonE", "\\purpleA", "\\purpleB", "\\purpleC", "\\purpleD", "\\purpleE", "\\mintA", "\\mintB", "\\mintC", "\\grayA", "\\grayB", "\\grayC", "\\grayD", "\\grayE", "\\grayF", "\\grayG", "\\grayH", "\\grayI", "\\kaBlue", "\\kaGreen"],
  props: {
    numArgs: 1,
    allowedInText: true,
    greediness: 3
  },

  handler(_ref2, args) {
    let parser = _ref2.parser,
        funcName = _ref2.funcName;
    const body = args[0];
    return {
      type: "color",
      mode: parser.mode,
      color: "katex-" + funcName.slice(1),
      body: ordargument(body)
    };
  },

  htmlBuilder: htmlBuilder$1,
  mathmlBuilder: mathmlBuilder$1
});
defineFunction({
  type: "color",
  names: ["\\color"],
  props: {
    numArgs: 1,
    allowedInText: true,
    greediness: 3,
    argTypes: ["color"]
  },

  handler(_ref3, args) {
    let parser = _ref3.parser,
        breakOnTokenText = _ref3.breakOnTokenText;
    const color = assertNodeType(args[0], "color-token").color; // If we see a styling function, parse out the implicit body

    const body = parser.parseExpression(true, breakOnTokenText);
    return {
      type: "color",
      mode: parser.mode,
      color,
      body
    };
  },

  htmlBuilder: htmlBuilder$1,
  mathmlBuilder: mathmlBuilder$1
});

// Row breaks within tabular environments, and line breaks at top level
// same signature, we implement them as one megafunction, with newRow
// indicating whether we're in the \cr case, and newLine indicating whether
// to break the line in the \newline case.

defineFunction({
  type: "cr",
  names: ["\\cr", "\\newline"],
  props: {
    numArgs: 0,
    numOptionalArgs: 1,
    argTypes: ["size"],
    allowedInText: true
  },

  handler(_ref, args, optArgs) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const size = optArgs[0];
    const newRow = funcName === "\\cr";
    let newLine = false;

    if (!newRow) {
      if (parser.settings.displayMode && parser.settings.useStrictBehavior("newLineInDisplayMode", "In LaTeX, \\\\ or \\newline " + "does nothing in display mode")) {
        newLine = false;
      } else {
        newLine = true;
      }
    }

    return {
      type: "cr",
      mode: parser.mode,
      newLine,
      newRow,
      size: size && assertNodeType(size, "size").value
    };
  },

  // The following builders are called only at the top level,
  // not within tabular/array environments.
  htmlBuilder(group, options) {
    if (group.newRow) {
      throw new ParseError("\\cr valid only within a tabular/array environment");
    }

    const span = buildCommon.makeSpan(["mspace"], [], options);

    if (group.newLine) {
      span.classes.push("newline");

      if (group.size) {
        span.style.marginTop = calculateSize(group.size, options) + "em";
      }
    }

    return span;
  },

  mathmlBuilder(group, options) {
    const node = new mathMLTree.MathNode("mspace");

    if (group.newLine) {
      node.setAttribute("linebreak", "newline");

      if (group.size) {
        node.setAttribute("height", calculateSize(group.size, options) + "em");
      }
    }

    return node;
  }

});

/**
 * This file deals with creating delimiters of various sizes. The TeXbook
 * discusses these routines on page 441-442, in the "Another subroutine sets box
 * x to a specified variable delimiter" paragraph.
 *
 * There are three main routines here. `makeSmallDelim` makes a delimiter in the
 * normal font, but in either text, script, or scriptscript style.
 * `makeLargeDelim` makes a delimiter in textstyle, but in one of the Size1,
 * Size2, Size3, or Size4 fonts. `makeStackedDelim` makes a delimiter out of
 * smaller pieces that are stacked on top of one another.
 *
 * The functions take a parameter `center`, which determines if the delimiter
 * should be centered around the axis.
 *
 * Then, there are three exposed functions. `sizedDelim` makes a delimiter in
 * one of the given sizes. This is used for things like `\bigl`.
 * `customSizedDelim` makes a delimiter with a given total height+depth. It is
 * called in places like `\sqrt`. `leftRightDelim` makes an appropriate
 * delimiter which surrounds an expression of a given height an depth. It is
 * used in `\left` and `\right`.
 */

/**
 * Get the metrics for a given symbol and font, after transformation (i.e.
 * after following replacement from symbols.js)
 */
const getMetrics = function getMetrics(symbol, font, mode) {
  const replace = symbols.math[symbol] && symbols.math[symbol].replace;
  const metrics = getCharacterMetrics(replace || symbol, font, mode);

  if (!metrics) {
    throw new Error(`Unsupported symbol ${symbol} and font size ${font}.`);
  }

  return metrics;
};
/**
 * Puts a delimiter span in a given style, and adds appropriate height, depth,
 * and maxFontSizes.
 */


const styleWrap = function styleWrap(delim, toStyle, options, classes) {
  const newOptions = options.havingBaseStyle(toStyle);
  const span = buildCommon.makeSpan(classes.concat(newOptions.sizingClasses(options)), [delim], options);
  const delimSizeMultiplier = newOptions.sizeMultiplier / options.sizeMultiplier;
  span.height *= delimSizeMultiplier;
  span.depth *= delimSizeMultiplier;
  span.maxFontSize = newOptions.sizeMultiplier;
  return span;
};

const centerSpan = function centerSpan(span, options, style) {
  const newOptions = options.havingBaseStyle(style);
  const shift = (1 - options.sizeMultiplier / newOptions.sizeMultiplier) * options.fontMetrics().axisHeight;
  span.classes.push("delimcenter");
  span.style.top = shift + "em";
  span.height -= shift;
  span.depth += shift;
};
/**
 * Makes a small delimiter. This is a delimiter that comes in the Main-Regular
 * font, but is restyled to either be in textstyle, scriptstyle, or
 * scriptscriptstyle.
 */


const makeSmallDelim = function makeSmallDelim(delim, style, center, options, mode, classes) {
  const text = buildCommon.makeSymbol(delim, "Main-Regular", mode, options);
  const span = styleWrap(text, style, options, classes);

  if (center) {
    centerSpan(span, options, style);
  }

  return span;
};
/**
 * Builds a symbol in the given font size (note size is an integer)
 */


const mathrmSize = function mathrmSize(value, size, mode, options) {
  return buildCommon.makeSymbol(value, "Size" + size + "-Regular", mode, options);
};
/**
 * Makes a large delimiter. This is a delimiter that comes in the Size1, Size2,
 * Size3, or Size4 fonts. It is always rendered in textstyle.
 */


const makeLargeDelim = function makeLargeDelim(delim, size, center, options, mode, classes) {
  const inner = mathrmSize(delim, size, mode, options);
  const span = styleWrap(buildCommon.makeSpan(["delimsizing", "size" + size], [inner], options), Style$1.TEXT, options, classes);

  if (center) {
    centerSpan(span, options, Style$1.TEXT);
  }

  return span;
};
/**
 * Make an inner span with the given offset and in the given font. This is used
 * in `makeStackedDelim` to make the stacking pieces for the delimiter.
 */


const makeInner = function makeInner(symbol, font, mode) {
  let sizeClass; // Apply the correct CSS class to choose the right font.

  if (font === "Size1-Regular") {
    sizeClass = "delim-size1";
  } else
    /* if (font === "Size4-Regular") */
    {
      sizeClass = "delim-size4";
    }

  const inner = buildCommon.makeSpan(["delimsizinginner", sizeClass], [buildCommon.makeSpan([], [buildCommon.makeSymbol(symbol, font, mode)])]); // Since this will be passed into `makeVList` in the end, wrap the element
  // in the appropriate tag that VList uses.

  return {
    type: "elem",
    elem: inner
  };
};
/**
 * Make a stacked delimiter out of a given delimiter, with the total height at
 * least `heightTotal`. This routine is mentioned on page 442 of the TeXbook.
 */


const makeStackedDelim = function makeStackedDelim(delim, heightTotal, center, options, mode, classes) {
  // There are four parts, the top, an optional middle, a repeated part, and a
  // bottom.
  let top;
  let middle;
  let repeat;
  let bottom;
  top = repeat = bottom = delim;
  middle = null; // Also keep track of what font the delimiters are in

  let font = "Size1-Regular"; // We set the parts and font based on the symbol. Note that we use
  // '\u23d0' instead of '|' and '\u2016' instead of '\\|' for the
  // repeats of the arrows

  if (delim === "\\uparrow") {
    repeat = bottom = "\u23d0";
  } else if (delim === "\\Uparrow") {
    repeat = bottom = "\u2016";
  } else if (delim === "\\downarrow") {
    top = repeat = "\u23d0";
  } else if (delim === "\\Downarrow") {
    top = repeat = "\u2016";
  } else if (delim === "\\updownarrow") {
    top = "\\uparrow";
    repeat = "\u23d0";
    bottom = "\\downarrow";
  } else if (delim === "\\Updownarrow") {
    top = "\\Uparrow";
    repeat = "\u2016";
    bottom = "\\Downarrow";
  } else if (delim === "[" || delim === "\\lbrack") {
    top = "\u23a1";
    repeat = "\u23a2";
    bottom = "\u23a3";
    font = "Size4-Regular";
  } else if (delim === "]" || delim === "\\rbrack") {
    top = "\u23a4";
    repeat = "\u23a5";
    bottom = "\u23a6";
    font = "Size4-Regular";
  } else if (delim === "\\lfloor" || delim === "\u230a") {
    repeat = top = "\u23a2";
    bottom = "\u23a3";
    font = "Size4-Regular";
  } else if (delim === "\\lceil" || delim === "\u2308") {
    top = "\u23a1";
    repeat = bottom = "\u23a2";
    font = "Size4-Regular";
  } else if (delim === "\\rfloor" || delim === "\u230b") {
    repeat = top = "\u23a5";
    bottom = "\u23a6";
    font = "Size4-Regular";
  } else if (delim === "\\rceil" || delim === "\u2309") {
    top = "\u23a4";
    repeat = bottom = "\u23a5";
    font = "Size4-Regular";
  } else if (delim === "(" || delim === "\\lparen") {
    top = "\u239b";
    repeat = "\u239c";
    bottom = "\u239d";
    font = "Size4-Regular";
  } else if (delim === ")" || delim === "\\rparen") {
    top = "\u239e";
    repeat = "\u239f";
    bottom = "\u23a0";
    font = "Size4-Regular";
  } else if (delim === "\\{" || delim === "\\lbrace") {
    top = "\u23a7";
    middle = "\u23a8";
    bottom = "\u23a9";
    repeat = "\u23aa";
    font = "Size4-Regular";
  } else if (delim === "\\}" || delim === "\\rbrace") {
    top = "\u23ab";
    middle = "\u23ac";
    bottom = "\u23ad";
    repeat = "\u23aa";
    font = "Size4-Regular";
  } else if (delim === "\\lgroup" || delim === "\u27ee") {
    top = "\u23a7";
    bottom = "\u23a9";
    repeat = "\u23aa";
    font = "Size4-Regular";
  } else if (delim === "\\rgroup" || delim === "\u27ef") {
    top = "\u23ab";
    bottom = "\u23ad";
    repeat = "\u23aa";
    font = "Size4-Regular";
  } else if (delim === "\\lmoustache" || delim === "\u23b0") {
    top = "\u23a7";
    bottom = "\u23ad";
    repeat = "\u23aa";
    font = "Size4-Regular";
  } else if (delim === "\\rmoustache" || delim === "\u23b1") {
    top = "\u23ab";
    bottom = "\u23a9";
    repeat = "\u23aa";
    font = "Size4-Regular";
  } // Get the metrics of the four sections


  const topMetrics = getMetrics(top, font, mode);
  const topHeightTotal = topMetrics.height + topMetrics.depth;
  const repeatMetrics = getMetrics(repeat, font, mode);
  const repeatHeightTotal = repeatMetrics.height + repeatMetrics.depth;
  const bottomMetrics = getMetrics(bottom, font, mode);
  const bottomHeightTotal = bottomMetrics.height + bottomMetrics.depth;
  let middleHeightTotal = 0;
  let middleFactor = 1;

  if (middle !== null) {
    const middleMetrics = getMetrics(middle, font, mode);
    middleHeightTotal = middleMetrics.height + middleMetrics.depth;
    middleFactor = 2; // repeat symmetrically above and below middle
  } // Calcuate the minimal height that the delimiter can have.
  // It is at least the size of the top, bottom, and optional middle combined.


  const minHeight = topHeightTotal + bottomHeightTotal + middleHeightTotal; // Compute the number of copies of the repeat symbol we will need

  const repeatCount = Math.ceil((heightTotal - minHeight) / (middleFactor * repeatHeightTotal)); // Compute the total height of the delimiter including all the symbols

  const realHeightTotal = minHeight + repeatCount * middleFactor * repeatHeightTotal; // The center of the delimiter is placed at the center of the axis. Note
  // that in this context, "center" means that the delimiter should be
  // centered around the axis in the current style, while normally it is
  // centered around the axis in textstyle.

  let axisHeight = options.fontMetrics().axisHeight;

  if (center) {
    axisHeight *= options.sizeMultiplier;
  } // Calculate the depth


  const depth = realHeightTotal / 2 - axisHeight; // Now, we start building the pieces that will go into the vlist
  // Keep a list of the inner pieces

  const inners = []; // Add the bottom symbol

  inners.push(makeInner(bottom, font, mode));

  if (middle === null) {
    // Add that many symbols
    for (let i = 0; i < repeatCount; i++) {
      inners.push(makeInner(repeat, font, mode));
    }
  } else {
    // When there is a middle bit, we need the middle part and two repeated
    // sections
    for (let i = 0; i < repeatCount; i++) {
      inners.push(makeInner(repeat, font, mode));
    }

    inners.push(makeInner(middle, font, mode));

    for (let i = 0; i < repeatCount; i++) {
      inners.push(makeInner(repeat, font, mode));
    }
  } // Add the top symbol


  inners.push(makeInner(top, font, mode)); // Finally, build the vlist

  const newOptions = options.havingBaseStyle(Style$1.TEXT);
  const inner = buildCommon.makeVList({
    positionType: "bottom",
    positionData: depth,
    children: inners
  }, newOptions);
  return styleWrap(buildCommon.makeSpan(["delimsizing", "mult"], [inner], newOptions), Style$1.TEXT, options, classes);
}; // All surds have 0.08em padding above the viniculum inside the SVG.
// That keeps browser span height rounding error from pinching the line.


const vbPad = 80; // padding above the surd, measured inside the viewBox.

const emPad = 0.08; // padding, in ems, measured in the document.

const sqrtSvg = function sqrtSvg(sqrtName, height, viewBoxHeight, options) {
  let alternate;

  if (sqrtName === "sqrtTall") {
    // sqrtTall is from glyph U23B7 in the font KaTeX_Size4-Regular
    // One path edge has a variable length. It runs from the viniculumn
    // to a point near (14 units) the bottom of the surd. The viniculum
    // is 40 units thick. So the length of the line in question is:
    const vertSegment = viewBoxHeight - 54 - vbPad;
    alternate = `M702 ${vbPad}H400000v40H742v${vertSegment}l-4 4-4 4c-.667.7
-2 1.5-4 2.5s-4.167 1.833-6.5 2.5-5.5 1-9.5 1h-12l-28-84c-16.667-52-96.667
-294.333-240-727l-212 -643 -85 170c-4-3.333-8.333-7.667-13 -13l-13-13l77-155
 77-156c66 199.333 139 419.667 219 661 l218 661zM702 ${vbPad}H400000v40H742z`;
  }

  const pathNode = new PathNode(sqrtName, alternate);
  const svg = new SvgNode([pathNode], {
    // Note: 1000:1 ratio of viewBox to document em width.
    "width": "400em",
    "height": height + "em",
    "viewBox": "0 0 400000 " + viewBoxHeight,
    "preserveAspectRatio": "xMinYMin slice"
  });
  return buildCommon.makeSvgSpan(["hide-tail"], [svg], options);
};
/**
 * Make a sqrt image of the given height,
 */


const makeSqrtImage = function makeSqrtImage(height, options) {
  // Define a newOptions that removes the effect of size changes such as \Huge.
  // We don't pick different a height surd for \Huge. For it, we scale up.
  const newOptions = options.havingBaseSizing(); // Pick the desired surd glyph from a sequence of surds.

  const delim = traverseSequence("\\surd", height * newOptions.sizeMultiplier, stackLargeDelimiterSequence, newOptions);
  let sizeMultiplier = newOptions.sizeMultiplier; // default
  // Create a span containing an SVG image of a sqrt symbol.

  let span;
  let spanHeight = 0;
  let texHeight = 0;
  let viewBoxHeight = 0;
  let advanceWidth; // We create viewBoxes with 80 units of "padding" above each surd.
  // Then browser rounding error on the parent span height will not
  // encroach on the ink of the viniculum. But that padding is not
  // included in the TeX-like `height` used for calculation of
  // vertical alignment. So texHeight = span.height < span.style.height.

  if (delim.type === "small") {
    // Get an SVG that is derived from glyph U+221A in font KaTeX-Main.
    viewBoxHeight = 1000 + vbPad; // 1000 unit glyph height.

    if (height < 1.0) {
      sizeMultiplier = 1.0; // mimic a \textfont radical
    } else if (height < 1.4) {
      sizeMultiplier = 0.7; // mimic a \scriptfont radical
    }

    spanHeight = (1.0 + emPad) / sizeMultiplier;
    texHeight = 1.00 / sizeMultiplier;
    span = sqrtSvg("sqrtMain", spanHeight, viewBoxHeight, options);
    span.style.minWidth = "0.853em";
    advanceWidth = 0.833 / sizeMultiplier; // from the font.
  } else if (delim.type === "large") {
    // These SVGs come from fonts: KaTeX_Size1, _Size2, etc.
    viewBoxHeight = (1000 + vbPad) * sizeToMaxHeight[delim.size];
    texHeight = sizeToMaxHeight[delim.size] / sizeMultiplier;
    spanHeight = (sizeToMaxHeight[delim.size] + emPad) / sizeMultiplier;
    span = sqrtSvg("sqrtSize" + delim.size, spanHeight, viewBoxHeight, options);
    span.style.minWidth = "1.02em";
    advanceWidth = 1.0 / sizeMultiplier; // 1.0 from the font.
  } else {
    // Tall sqrt. In TeX, this would be stacked using multiple glyphs.
    // We'll use a single SVG to accomplish the same thing.
    spanHeight = height + emPad;
    texHeight = height;
    viewBoxHeight = Math.floor(1000 * height) + vbPad;
    span = sqrtSvg("sqrtTall", spanHeight, viewBoxHeight, options);
    span.style.minWidth = "0.742em";
    advanceWidth = 1.056;
  }

  span.height = texHeight;
  span.style.height = spanHeight + "em";
  return {
    span,
    advanceWidth,
    // Calculate the actual line width.
    // This actually should depend on the chosen font -- e.g. \boldmath
    // should use the thicker surd symbols from e.g. KaTeX_Main-Bold, and
    // have thicker rules.
    ruleWidth: options.fontMetrics().sqrtRuleThickness * sizeMultiplier
  };
}; // There are three kinds of delimiters, delimiters that stack when they become
// too large


const stackLargeDelimiters = ["(", "\\lparen", ")", "\\rparen", "[", "\\lbrack", "]", "\\rbrack", "\\{", "\\lbrace", "\\}", "\\rbrace", "\\lfloor", "\\rfloor", "\u230a", "\u230b", "\\lceil", "\\rceil", "\u2308", "\u2309", "\\surd"]; // delimiters that always stack

const stackAlwaysDelimiters = ["\\uparrow", "\\downarrow", "\\updownarrow", "\\Uparrow", "\\Downarrow", "\\Updownarrow", "|", "\\|", "\\vert", "\\Vert", "\\lvert", "\\rvert", "\\lVert", "\\rVert", "\\lgroup", "\\rgroup", "\u27ee", "\u27ef", "\\lmoustache", "\\rmoustache", "\u23b0", "\u23b1"]; // and delimiters that never stack

const stackNeverDelimiters = ["<", ">", "\\langle", "\\rangle", "/", "\\backslash", "\\lt", "\\gt"]; // Metrics of the different sizes. Found by looking at TeX's output of
// $\bigl| // \Bigl| \biggl| \Biggl| \showlists$
// Used to create stacked delimiters of appropriate sizes in makeSizedDelim.

const sizeToMaxHeight = [0, 1.2, 1.8, 2.4, 3.0];
/**
 * Used to create a delimiter of a specific size, where `size` is 1, 2, 3, or 4.
 */

const makeSizedDelim = function makeSizedDelim(delim, size, options, mode, classes) {
  // < and > turn into \langle and \rangle in delimiters
  if (delim === "<" || delim === "\\lt" || delim === "\u27e8") {
    delim = "\\langle";
  } else if (delim === ">" || delim === "\\gt" || delim === "\u27e9") {
    delim = "\\rangle";
  } // Sized delimiters are never centered.


  if (utils.contains(stackLargeDelimiters, delim) || utils.contains(stackNeverDelimiters, delim)) {
    return makeLargeDelim(delim, size, false, options, mode, classes);
  } else if (utils.contains(stackAlwaysDelimiters, delim)) {
    return makeStackedDelim(delim, sizeToMaxHeight[size], false, options, mode, classes);
  } else {
    throw new ParseError("Illegal delimiter: '" + delim + "'");
  }
};
/**
 * There are three different sequences of delimiter sizes that the delimiters
 * follow depending on the kind of delimiter. This is used when creating custom
 * sized delimiters to decide whether to create a small, large, or stacked
 * delimiter.
 *
 * In real TeX, these sequences aren't explicitly defined, but are instead
 * defined inside the font metrics. Since there are only three sequences that
 * are possible for the delimiters that TeX defines, it is easier to just encode
 * them explicitly here.
 */


// Delimiters that never stack try small delimiters and large delimiters only
const stackNeverDelimiterSequence = [{
  type: "small",
  style: Style$1.SCRIPTSCRIPT
}, {
  type: "small",
  style: Style$1.SCRIPT
}, {
  type: "small",
  style: Style$1.TEXT
}, {
  type: "large",
  size: 1
}, {
  type: "large",
  size: 2
}, {
  type: "large",
  size: 3
}, {
  type: "large",
  size: 4
}]; // Delimiters that always stack try the small delimiters first, then stack

const stackAlwaysDelimiterSequence = [{
  type: "small",
  style: Style$1.SCRIPTSCRIPT
}, {
  type: "small",
  style: Style$1.SCRIPT
}, {
  type: "small",
  style: Style$1.TEXT
}, {
  type: "stack"
}]; // Delimiters that stack when large try the small and then large delimiters, and
// stack afterwards

const stackLargeDelimiterSequence = [{
  type: "small",
  style: Style$1.SCRIPTSCRIPT
}, {
  type: "small",
  style: Style$1.SCRIPT
}, {
  type: "small",
  style: Style$1.TEXT
}, {
  type: "large",
  size: 1
}, {
  type: "large",
  size: 2
}, {
  type: "large",
  size: 3
}, {
  type: "large",
  size: 4
}, {
  type: "stack"
}];
/**
 * Get the font used in a delimiter based on what kind of delimiter it is.
 * TODO(#963) Use more specific font family return type once that is introduced.
 */

const delimTypeToFont = function delimTypeToFont(type) {
  if (type.type === "small") {
    return "Main-Regular";
  } else if (type.type === "large") {
    return "Size" + type.size + "-Regular";
  } else if (type.type === "stack") {
    return "Size4-Regular";
  } else {
    throw new Error(`Add support for delim type '${type.type}' here.`);
  }
};
/**
 * Traverse a sequence of types of delimiters to decide what kind of delimiter
 * should be used to create a delimiter of the given height+depth.
 */


const traverseSequence = function traverseSequence(delim, height, sequence, options) {
  // Here, we choose the index we should start at in the sequences. In smaller
  // sizes (which correspond to larger numbers in style.size) we start earlier
  // in the sequence. Thus, scriptscript starts at index 3-3=0, script starts
  // at index 3-2=1, text starts at 3-1=2, and display starts at min(2,3-0)=2
  const start = Math.min(2, 3 - options.style.size);

  for (let i = start; i < sequence.length; i++) {
    if (sequence[i].type === "stack") {
      // This is always the last delimiter, so we just break the loop now.
      break;
    }

    const metrics = getMetrics(delim, delimTypeToFont(sequence[i]), "math");
    let heightDepth = metrics.height + metrics.depth; // Small delimiters are scaled down versions of the same font, so we
    // account for the style change size.

    if (sequence[i].type === "small") {
      const newOptions = options.havingBaseStyle(sequence[i].style);
      heightDepth *= newOptions.sizeMultiplier;
    } // Check if the delimiter at this size works for the given height.


    if (heightDepth > height) {
      return sequence[i];
    }
  } // If we reached the end of the sequence, return the last sequence element.


  return sequence[sequence.length - 1];
};
/**
 * Make a delimiter of a given height+depth, with optional centering. Here, we
 * traverse the sequences, and create a delimiter that the sequence tells us to.
 */


const makeCustomSizedDelim = function makeCustomSizedDelim(delim, height, center, options, mode, classes) {
  if (delim === "<" || delim === "\\lt" || delim === "\u27e8") {
    delim = "\\langle";
  } else if (delim === ">" || delim === "\\gt" || delim === "\u27e9") {
    delim = "\\rangle";
  } // Decide what sequence to use


  let sequence;

  if (utils.contains(stackNeverDelimiters, delim)) {
    sequence = stackNeverDelimiterSequence;
  } else if (utils.contains(stackLargeDelimiters, delim)) {
    sequence = stackLargeDelimiterSequence;
  } else {
    sequence = stackAlwaysDelimiterSequence;
  } // Look through the sequence


  const delimType = traverseSequence(delim, height, sequence, options); // Get the delimiter from font glyphs.
  // Depending on the sequence element we decided on, call the
  // appropriate function.

  if (delimType.type === "small") {
    return makeSmallDelim(delim, delimType.style, center, options, mode, classes);
  } else if (delimType.type === "large") {
    return makeLargeDelim(delim, delimType.size, center, options, mode, classes);
  } else
    /* if (delimType.type === "stack") */
    {
      return makeStackedDelim(delim, height, center, options, mode, classes);
    }
};
/**
 * Make a delimiter for use with `\left` and `\right`, given a height and depth
 * of an expression that the delimiters surround.
 */


const makeLeftRightDelim = function makeLeftRightDelim(delim, height, depth, options, mode, classes) {
  // We always center \left/\right delimiters, so the axis is always shifted
  const axisHeight = options.fontMetrics().axisHeight * options.sizeMultiplier; // Taken from TeX source, tex.web, function make_left_right

  const delimiterFactor = 901;
  const delimiterExtend = 5.0 / options.fontMetrics().ptPerEm;
  const maxDistFromAxis = Math.max(height - axisHeight, depth + axisHeight);
  const totalHeight = Math.max( // In real TeX, calculations are done using integral values which are
  // 65536 per pt, or 655360 per em. So, the division here truncates in
  // TeX but doesn't here, producing different results. If we wanted to
  // exactly match TeX's calculation, we could do
  //   Math.floor(655360 * maxDistFromAxis / 500) *
  //    delimiterFactor / 655360
  // (To see the difference, compare
  //    x^{x^{\left(\rule{0.1em}{0.68em}\right)}}
  // in TeX and KaTeX)
  maxDistFromAxis / 500 * delimiterFactor, 2 * maxDistFromAxis - delimiterExtend); // Finally, we defer to `makeCustomSizedDelim` with our calculated total
  // height

  return makeCustomSizedDelim(delim, totalHeight, true, options, mode, classes);
};

var delimiter = {
  sqrtImage: makeSqrtImage,
  sizedDelim: makeSizedDelim,
  customSizedDelim: makeCustomSizedDelim,
  leftRightDelim: makeLeftRightDelim
};

// Extra data needed for the delimiter handler down below
const delimiterSizes = {
  "\\bigl": {
    mclass: "mopen",
    size: 1
  },
  "\\Bigl": {
    mclass: "mopen",
    size: 2
  },
  "\\biggl": {
    mclass: "mopen",
    size: 3
  },
  "\\Biggl": {
    mclass: "mopen",
    size: 4
  },
  "\\bigr": {
    mclass: "mclose",
    size: 1
  },
  "\\Bigr": {
    mclass: "mclose",
    size: 2
  },
  "\\biggr": {
    mclass: "mclose",
    size: 3
  },
  "\\Biggr": {
    mclass: "mclose",
    size: 4
  },
  "\\bigm": {
    mclass: "mrel",
    size: 1
  },
  "\\Bigm": {
    mclass: "mrel",
    size: 2
  },
  "\\biggm": {
    mclass: "mrel",
    size: 3
  },
  "\\Biggm": {
    mclass: "mrel",
    size: 4
  },
  "\\big": {
    mclass: "mord",
    size: 1
  },
  "\\Big": {
    mclass: "mord",
    size: 2
  },
  "\\bigg": {
    mclass: "mord",
    size: 3
  },
  "\\Bigg": {
    mclass: "mord",
    size: 4
  }
};
const delimiters = ["(", "\\lparen", ")", "\\rparen", "[", "\\lbrack", "]", "\\rbrack", "\\{", "\\lbrace", "\\}", "\\rbrace", "\\lfloor", "\\rfloor", "\u230a", "\u230b", "\\lceil", "\\rceil", "\u2308", "\u2309", "<", ">", "\\langle", "\u27e8", "\\rangle", "\u27e9", "\\lt", "\\gt", "\\lvert", "\\rvert", "\\lVert", "\\rVert", "\\lgroup", "\\rgroup", "\u27ee", "\u27ef", "\\lmoustache", "\\rmoustache", "\u23b0", "\u23b1", "/", "\\backslash", "|", "\\vert", "\\|", "\\Vert", "\\uparrow", "\\Uparrow", "\\downarrow", "\\Downarrow", "\\updownarrow", "\\Updownarrow", "."];

// Delimiter functions
function checkDelimiter(delim, context) {
  const symDelim = checkSymbolNodeType(delim);

  if (symDelim && utils.contains(delimiters, symDelim.text)) {
    return symDelim;
  } else {
    throw new ParseError("Invalid delimiter: '" + (symDelim ? symDelim.text : JSON.stringify(delim)) + "' after '" + context.funcName + "'", delim);
  }
}

defineFunction({
  type: "delimsizing",
  names: ["\\bigl", "\\Bigl", "\\biggl", "\\Biggl", "\\bigr", "\\Bigr", "\\biggr", "\\Biggr", "\\bigm", "\\Bigm", "\\biggm", "\\Biggm", "\\big", "\\Big", "\\bigg", "\\Bigg"],
  props: {
    numArgs: 1
  },
  handler: (context, args) => {
    const delim = checkDelimiter(args[0], context);
    return {
      type: "delimsizing",
      mode: context.parser.mode,
      size: delimiterSizes[context.funcName].size,
      mclass: delimiterSizes[context.funcName].mclass,
      delim: delim.text
    };
  },
  htmlBuilder: (group, options) => {
    if (group.delim === ".") {
      // Empty delimiters still count as elements, even though they don't
      // show anything.
      return buildCommon.makeSpan([group.mclass]);
    } // Use delimiter.sizedDelim to generate the delimiter.


    return delimiter.sizedDelim(group.delim, group.size, options, group.mode, [group.mclass]);
  },
  mathmlBuilder: group => {
    const children = [];

    if (group.delim !== ".") {
      children.push(makeText(group.delim, group.mode));
    }

    const node = new mathMLTree.MathNode("mo", children);

    if (group.mclass === "mopen" || group.mclass === "mclose") {
      // Only some of the delimsizing functions act as fences, and they
      // return "mopen" or "mclose" mclass.
      node.setAttribute("fence", "true");
    } else {
      // Explicitly disable fencing if it's not a fence, to override the
      // defaults.
      node.setAttribute("fence", "false");
    }

    return node;
  }
});

function assertParsed(group) {
  if (!group.body) {
    throw new Error("Bug: The leftright ParseNode wasn't fully parsed.");
  }
}

defineFunction({
  type: "leftright-right",
  names: ["\\right"],
  props: {
    numArgs: 1
  },
  handler: (context, args) => {
    // \left case below triggers parsing of \right in
    //   `const right = parser.parseFunction();`
    // uses this return value.
    return {
      type: "leftright-right",
      mode: context.parser.mode,
      delim: checkDelimiter(args[0], context).text
    };
  }
});
defineFunction({
  type: "leftright",
  names: ["\\left"],
  props: {
    numArgs: 1
  },
  handler: (context, args) => {
    const delim = checkDelimiter(args[0], context);
    const parser = context.parser; // Parse out the implicit body

    ++parser.leftrightDepth; // parseExpression stops before '\\right'

    const body = parser.parseExpression(false);
    --parser.leftrightDepth; // Check the next token

    parser.expect("\\right", false);
    const right = assertNodeType(parser.parseFunction(), "leftright-right");
    return {
      type: "leftright",
      mode: parser.mode,
      body,
      left: delim.text,
      right: right.delim
    };
  },
  htmlBuilder: (group, options) => {
    assertParsed(group); // Build the inner expression

    const inner = buildExpression(group.body, options, true, ["mopen", "mclose"]);
    let innerHeight = 0;
    let innerDepth = 0;
    let hadMiddle = false; // Calculate its height and depth

    for (let i = 0; i < inner.length; i++) {
      // Property `isMiddle` not defined on `span`. See comment in
      // "middle"'s htmlBuilder.
      // $FlowFixMe
      if (inner[i].isMiddle) {
        hadMiddle = true;
      } else {
        innerHeight = Math.max(inner[i].height, innerHeight);
        innerDepth = Math.max(inner[i].depth, innerDepth);
      }
    } // The size of delimiters is the same, regardless of what style we are
    // in. Thus, to correctly calculate the size of delimiter we need around
    // a group, we scale down the inner size based on the size.


    innerHeight *= options.sizeMultiplier;
    innerDepth *= options.sizeMultiplier;
    let leftDelim;

    if (group.left === ".") {
      // Empty delimiters in \left and \right make null delimiter spaces.
      leftDelim = makeNullDelimiter(options, ["mopen"]);
    } else {
      // Otherwise, use leftRightDelim to generate the correct sized
      // delimiter.
      leftDelim = delimiter.leftRightDelim(group.left, innerHeight, innerDepth, options, group.mode, ["mopen"]);
    } // Add it to the beginning of the expression


    inner.unshift(leftDelim); // Handle middle delimiters

    if (hadMiddle) {
      for (let i = 1; i < inner.length; i++) {
        const middleDelim = inner[i]; // Property `isMiddle` not defined on `span`. See comment in
        // "middle"'s htmlBuilder.
        // $FlowFixMe

        const isMiddle = middleDelim.isMiddle;

        if (isMiddle) {
          // Apply the options that were active when \middle was called
          inner[i] = delimiter.leftRightDelim(isMiddle.delim, innerHeight, innerDepth, isMiddle.options, group.mode, []);
        }
      }
    }

    let rightDelim; // Same for the right delimiter

    if (group.right === ".") {
      rightDelim = makeNullDelimiter(options, ["mclose"]);
    } else {
      rightDelim = delimiter.leftRightDelim(group.right, innerHeight, innerDepth, options, group.mode, ["mclose"]);
    } // Add it to the end of the expression.


    inner.push(rightDelim);
    return buildCommon.makeSpan(["minner"], inner, options);
  },
  mathmlBuilder: (group, options) => {
    assertParsed(group);
    const inner = buildExpression$1(group.body, options);

    if (group.left !== ".") {
      const leftNode = new mathMLTree.MathNode("mo", [makeText(group.left, group.mode)]);
      leftNode.setAttribute("fence", "true");
      inner.unshift(leftNode);
    }

    if (group.right !== ".") {
      const rightNode = new mathMLTree.MathNode("mo", [makeText(group.right, group.mode)]);
      rightNode.setAttribute("fence", "true");
      inner.push(rightNode);
    }

    return makeRow(inner);
  }
});
defineFunction({
  type: "middle",
  names: ["\\middle"],
  props: {
    numArgs: 1
  },
  handler: (context, args) => {
    const delim = checkDelimiter(args[0], context);

    if (!context.parser.leftrightDepth) {
      throw new ParseError("\\middle without preceding \\left", delim);
    }

    return {
      type: "middle",
      mode: context.parser.mode,
      delim: delim.text
    };
  },
  htmlBuilder: (group, options) => {
    let middleDelim;

    if (group.delim === ".") {
      middleDelim = makeNullDelimiter(options, []);
    } else {
      middleDelim = delimiter.sizedDelim(group.delim, 1, options, group.mode, []);
      const isMiddle = {
        delim: group.delim,
        options
      }; // Property `isMiddle` not defined on `span`. It is only used in
      // this file above.
      // TODO: Fix this violation of the `span` type and possibly rename
      // things since `isMiddle` sounds like a boolean, but is a struct.
      // $FlowFixMe

      middleDelim.isMiddle = isMiddle;
    }

    return middleDelim;
  },
  mathmlBuilder: (group, options) => {
    const middleNode = new mathMLTree.MathNode("mo", [makeText(group.delim, group.mode)]);
    middleNode.setAttribute("fence", "true");
    return middleNode;
  }
});

const htmlBuilder$2 = (group, options) => {
  // \cancel, \bcancel, \xcancel, \sout, \fbox, \colorbox, \fcolorbox
  // Some groups can return document fragments.  Handle those by wrapping
  // them in a span.
  const inner = buildCommon.wrapFragment(buildGroup(group.body, options), options);
  const label = group.label.substr(1);
  const scale = options.sizeMultiplier;
  let img;
  let imgShift = 0; // In the LaTeX cancel package, line geometry is slightly different
  // depending on whether the subject is wider than it is tall, or vice versa.
  // We don't know the width of a group, so as a proxy, we test if
  // the subject is a single character. This captures most of the
  // subjects that should get the "tall" treatment.

  const isSingleChar = utils.isCharacterBox(group.body);

  if (label === "sout") {
    img = buildCommon.makeSpan(["stretchy", "sout"]);
    img.height = options.fontMetrics().defaultRuleThickness / scale;
    imgShift = -0.5 * options.fontMetrics().xHeight;
  } else {
    // Add horizontal padding
    if (/cancel/.test(label)) {
      if (!isSingleChar) {
        inner.classes.push("cancel-pad");
      }
    } else {
      inner.classes.push("boxpad");
    } // Add vertical padding


    let vertPad = 0; // ref: LaTeX source2e: \fboxsep = 3pt;  \fboxrule = .4pt
    // ref: cancel package: \advance\totalheight2\p@ % "+2"

    if (/box/.test(label)) {
      vertPad = label === "colorbox" ? 0.3 : 0.34;
    } else {
      vertPad = isSingleChar ? 0.2 : 0;
    }

    img = stretchy.encloseSpan(inner, label, vertPad, options);
    imgShift = inner.depth + vertPad;

    if (group.backgroundColor) {
      img.style.backgroundColor = group.backgroundColor;

      if (group.borderColor) {
        img.style.borderColor = group.borderColor;
      }
    }
  }

  let vlist;

  if (group.backgroundColor) {
    vlist = buildCommon.makeVList({
      positionType: "individualShift",
      children: [// Put the color background behind inner;
      {
        type: "elem",
        elem: img,
        shift: imgShift
      }, {
        type: "elem",
        elem: inner,
        shift: 0
      }]
    }, options);
  } else {
    vlist = buildCommon.makeVList({
      positionType: "individualShift",
      children: [// Write the \cancel stroke on top of inner.
      {
        type: "elem",
        elem: inner,
        shift: 0
      }, {
        type: "elem",
        elem: img,
        shift: imgShift,
        wrapperClasses: /cancel/.test(label) ? ["svg-align"] : []
      }]
    }, options);
  }

  if (/cancel/.test(label)) {
    // The cancel package documentation says that cancel lines add their height
    // to the expression, but tests show that isn't how it actually works.
    vlist.height = inner.height;
    vlist.depth = inner.depth;
  }

  if (/cancel/.test(label) && !isSingleChar) {
    // cancel does not create horiz space for its line extension.
    return buildCommon.makeSpan(["mord", "cancel-lap"], [vlist], options);
  } else {
    return buildCommon.makeSpan(["mord"], [vlist], options);
  }
};

const mathmlBuilder$2 = (group, options) => {
  const node = new mathMLTree.MathNode("menclose", [buildGroup$1(group.body, options)]);

  switch (group.label) {
    case "\\cancel":
      node.setAttribute("notation", "updiagonalstrike");
      break;

    case "\\bcancel":
      node.setAttribute("notation", "downdiagonalstrike");
      break;

    case "\\sout":
      node.setAttribute("notation", "horizontalstrike");
      break;

    case "\\fbox":
      node.setAttribute("notation", "box");
      break;

    case "\\fcolorbox":
      // TODO(ron): I don't know any way to set the border color.
      node.setAttribute("notation", "box");
      break;

    case "\\xcancel":
      node.setAttribute("notation", "updiagonalstrike downdiagonalstrike");
      break;
  }

  if (group.backgroundColor) {
    node.setAttribute("mathbackground", group.backgroundColor);
  }

  return node;
};

defineFunction({
  type: "enclose",
  names: ["\\colorbox"],
  props: {
    numArgs: 2,
    allowedInText: true,
    greediness: 3,
    argTypes: ["color", "text"]
  },

  handler(_ref, args, optArgs) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const color = assertNodeType(args[0], "color-token").color;
    const body = args[1];
    return {
      type: "enclose",
      mode: parser.mode,
      label: funcName,
      backgroundColor: color,
      body
    };
  },

  htmlBuilder: htmlBuilder$2,
  mathmlBuilder: mathmlBuilder$2
});
defineFunction({
  type: "enclose",
  names: ["\\fcolorbox"],
  props: {
    numArgs: 3,
    allowedInText: true,
    greediness: 3,
    argTypes: ["color", "color", "text"]
  },

  handler(_ref2, args, optArgs) {
    let parser = _ref2.parser,
        funcName = _ref2.funcName;
    const borderColor = assertNodeType(args[0], "color-token").color;
    const backgroundColor = assertNodeType(args[1], "color-token").color;
    const body = args[2];
    return {
      type: "enclose",
      mode: parser.mode,
      label: funcName,
      backgroundColor,
      borderColor,
      body
    };
  },

  htmlBuilder: htmlBuilder$2,
  mathmlBuilder: mathmlBuilder$2
});
defineFunction({
  type: "enclose",
  names: ["\\fbox"],
  props: {
    numArgs: 1,
    argTypes: ["text"],
    allowedInText: true
  },

  handler(_ref3, args) {
    let parser = _ref3.parser;
    return {
      type: "enclose",
      mode: parser.mode,
      label: "\\fbox",
      body: args[0]
    };
  }

});
defineFunction({
  type: "enclose",
  names: ["\\cancel", "\\bcancel", "\\xcancel", "\\sout"],
  props: {
    numArgs: 1
  },

  handler(_ref4, args, optArgs) {
    let parser = _ref4.parser,
        funcName = _ref4.funcName;
    const body = args[0];
    return {
      type: "enclose",
      mode: parser.mode,
      label: funcName,
      body
    };
  },

  htmlBuilder: htmlBuilder$2,
  mathmlBuilder: mathmlBuilder$2
});

/**
 * All registered environments.
 * `environments.js` exports this same dictionary again and makes it public.
 * `Parser.js` requires this dictionary via `environments.js`.
 */
const _environments = {};
function defineEnvironment(_ref) {
  let type = _ref.type,
      names = _ref.names,
      props = _ref.props,
      handler = _ref.handler,
      htmlBuilder = _ref.htmlBuilder,
      mathmlBuilder = _ref.mathmlBuilder;
  // Set default values of environments.
  const data = {
    type,
    numArgs: props.numArgs || 0,
    greediness: 1,
    allowedInText: false,
    numOptionalArgs: 0,
    handler
  };

  for (let i = 0; i < names.length; ++i) {
    // TODO: The value type of _environments should be a type union of all
    // possible `EnvSpec<>` possibilities instead of `EnvSpec<*>`, which is
    // an existential type.
    // $FlowFixMe
    _environments[names[i]] = data;
  }

  if (htmlBuilder) {
    _htmlGroupBuilders[type] = htmlBuilder;
  }

  if (mathmlBuilder) {
    _mathmlGroupBuilders[type] = mathmlBuilder;
  }
}

function getHLines(parser) {
  // Return an array. The array length = number of hlines.
  // Each element in the array tells if the line is dashed.
  const hlineInfo = [];
  parser.consumeSpaces();
  let nxt = parser.nextToken.text;

  while (nxt === "\\hline" || nxt === "\\hdashline") {
    parser.consume();
    hlineInfo.push(nxt === "\\hdashline");
    parser.consumeSpaces();
    nxt = parser.nextToken.text;
  }

  return hlineInfo;
}
/**
 * Parse the body of the environment, with rows delimited by \\ and
 * columns delimited by &, and create a nested list in row-major order
 * with one group per cell.  If given an optional argument style
 * ("text", "display", etc.), then each cell is cast into that style.
 */


function parseArray(parser, _ref, style) {
  let hskipBeforeAndAfter = _ref.hskipBeforeAndAfter,
      addJot = _ref.addJot,
      cols = _ref.cols,
      arraystretch = _ref.arraystretch;
  // Parse body of array with \\ temporarily mapped to \cr
  parser.gullet.beginGroup();
  parser.gullet.macros.set("\\\\", "\\cr"); // Get current arraystretch if it's not set by the environment

  if (!arraystretch) {
    const stretch = parser.gullet.expandMacroAsText("\\arraystretch");

    if (stretch == null) {
      // Default \arraystretch from lttab.dtx
      arraystretch = 1;
    } else {
      arraystretch = parseFloat(stretch);

      if (!arraystretch || arraystretch < 0) {
        throw new ParseError(`Invalid \\arraystretch: ${stretch}`);
      }
    }
  }

  let row = [];
  const body = [row];
  const rowGaps = [];
  const hLinesBeforeRow = []; // Test for \hline at the top of the array.

  hLinesBeforeRow.push(getHLines(parser));

  while (true) {
    // eslint-disable-line no-constant-condition
    let cell = parser.parseExpression(false, "\\cr");
    cell = {
      type: "ordgroup",
      mode: parser.mode,
      body: cell
    };

    if (style) {
      cell = {
        type: "styling",
        mode: parser.mode,
        style,
        body: [cell]
      };
    }

    row.push(cell);
    const next = parser.nextToken.text;

    if (next === "&") {
      parser.consume();
    } else if (next === "\\end") {
      // Arrays terminate newlines with `\crcr` which consumes a `\cr` if
      // the last line is empty.
      // NOTE: Currently, `cell` is the last item added into `row`.
      if (row.length === 1 && cell.type === "styling" && cell.body[0].body.length === 0) {
        body.pop();
      }

      if (hLinesBeforeRow.length < body.length + 1) {
        hLinesBeforeRow.push([]);
      }

      break;
    } else if (next === "\\cr") {
      const cr = assertNodeType(parser.parseFunction(), "cr");
      rowGaps.push(cr.size); // check for \hline(s) following the row separator

      hLinesBeforeRow.push(getHLines(parser));
      row = [];
      body.push(row);
    } else {
      throw new ParseError("Expected & or \\\\ or \\cr or \\end", parser.nextToken);
    }
  }

  parser.gullet.endGroup();
  return {
    type: "array",
    mode: parser.mode,
    addJot,
    arraystretch,
    body,
    cols,
    rowGaps,
    hskipBeforeAndAfter,
    hLinesBeforeRow
  };
} // Decides on a style for cells in an array according to whether the given
// environment name starts with the letter 'd'.


function dCellStyle(envName) {
  if (envName.substr(0, 1) === "d") {
    return "display";
  } else {
    return "text";
  }
}

const htmlBuilder$3 = function htmlBuilder(group, options) {
  let r;
  let c;
  const nr = group.body.length;
  const hLinesBeforeRow = group.hLinesBeforeRow;
  let nc = 0;
  let body = new Array(nr);
  const hlines = []; // Horizontal spacing

  const pt = 1 / options.fontMetrics().ptPerEm;
  const arraycolsep = 5 * pt; // \arraycolsep in article.cls
  // Vertical spacing

  const baselineskip = 12 * pt; // see size10.clo
  // Default \jot from ltmath.dtx
  // TODO(edemaine): allow overriding \jot via \setlength (#687)

  const jot = 3 * pt;
  const arrayskip = group.arraystretch * baselineskip;
  const arstrutHeight = 0.7 * arrayskip; // \strutbox in ltfsstrc.dtx and

  const arstrutDepth = 0.3 * arrayskip; // \@arstrutbox in lttab.dtx

  let totalHeight = 0; // Set a position for \hline(s) at the top of the array, if any.

  function setHLinePos(hlinesInGap) {
    for (let i = 0; i < hlinesInGap.length; ++i) {
      if (i > 0) {
        totalHeight += 0.25;
      }

      hlines.push({
        pos: totalHeight,
        isDashed: hlinesInGap[i]
      });
    }
  }

  setHLinePos(hLinesBeforeRow[0]);

  for (r = 0; r < group.body.length; ++r) {
    const inrow = group.body[r];
    let height = arstrutHeight; // \@array adds an \@arstrut

    let depth = arstrutDepth; // to each tow (via the template)

    if (nc < inrow.length) {
      nc = inrow.length;
    }

    const outrow = new Array(inrow.length);

    for (c = 0; c < inrow.length; ++c) {
      const elt = buildGroup(inrow[c], options);

      if (depth < elt.depth) {
        depth = elt.depth;
      }

      if (height < elt.height) {
        height = elt.height;
      }

      outrow[c] = elt;
    }

    const rowGap = group.rowGaps[r];
    let gap = 0;

    if (rowGap) {
      gap = calculateSize(rowGap, options);

      if (gap > 0) {
        // \@argarraycr
        gap += arstrutDepth;

        if (depth < gap) {
          depth = gap; // \@xargarraycr
        }

        gap = 0;
      }
    } // In AMS multiline environments such as aligned and gathered, rows
    // correspond to lines that have additional \jot added to the
    // \baselineskip via \openup.


    if (group.addJot) {
      depth += jot;
    }

    outrow.height = height;
    outrow.depth = depth;
    totalHeight += height;
    outrow.pos = totalHeight;
    totalHeight += depth + gap; // \@yargarraycr

    body[r] = outrow; // Set a position for \hline(s), if any.

    setHLinePos(hLinesBeforeRow[r + 1]);
  }

  const offset = totalHeight / 2 + options.fontMetrics().axisHeight;
  const colDescriptions = group.cols || [];
  const cols = [];
  let colSep;
  let colDescrNum;

  for (c = 0, colDescrNum = 0; // Continue while either there are more columns or more column
  // descriptions, so trailing separators don't get lost.
  c < nc || colDescrNum < colDescriptions.length; ++c, ++colDescrNum) {
    let colDescr = colDescriptions[colDescrNum] || {};
    let firstSeparator = true;

    while (colDescr.type === "separator") {
      // If there is more than one separator in a row, add a space
      // between them.
      if (!firstSeparator) {
        colSep = buildCommon.makeSpan(["arraycolsep"], []);
        colSep.style.width = options.fontMetrics().doubleRuleSep + "em";
        cols.push(colSep);
      }

      if (colDescr.separator === "|") {
        const separator = buildCommon.makeSpan(["vertical-separator"], [], options);
        separator.style.height = totalHeight + "em";
        separator.style.verticalAlign = -(totalHeight - offset) + "em";
        cols.push(separator);
      } else if (colDescr.separator === ":") {
        const separator = buildCommon.makeSpan(["vertical-separator", "vs-dashed"], [], options);
        separator.style.height = totalHeight + "em";
        separator.style.verticalAlign = -(totalHeight - offset) + "em";
        cols.push(separator);
      } else {
        throw new ParseError("Invalid separator type: " + colDescr.separator);
      }

      colDescrNum++;
      colDescr = colDescriptions[colDescrNum] || {};
      firstSeparator = false;
    }

    if (c >= nc) {
      continue;
    }

    let sepwidth;

    if (c > 0 || group.hskipBeforeAndAfter) {
      sepwidth = utils.deflt(colDescr.pregap, arraycolsep);

      if (sepwidth !== 0) {
        colSep = buildCommon.makeSpan(["arraycolsep"], []);
        colSep.style.width = sepwidth + "em";
        cols.push(colSep);
      }
    }

    let col = [];

    for (r = 0; r < nr; ++r) {
      const row = body[r];
      const elem = row[c];

      if (!elem) {
        continue;
      }

      const shift = row.pos - offset;
      elem.depth = row.depth;
      elem.height = row.height;
      col.push({
        type: "elem",
        elem: elem,
        shift: shift
      });
    }

    col = buildCommon.makeVList({
      positionType: "individualShift",
      children: col
    }, options);
    col = buildCommon.makeSpan(["col-align-" + (colDescr.align || "c")], [col]);
    cols.push(col);

    if (c < nc - 1 || group.hskipBeforeAndAfter) {
      sepwidth = utils.deflt(colDescr.postgap, arraycolsep);

      if (sepwidth !== 0) {
        colSep = buildCommon.makeSpan(["arraycolsep"], []);
        colSep.style.width = sepwidth + "em";
        cols.push(colSep);
      }
    }
  }

  body = buildCommon.makeSpan(["mtable"], cols); // Add \hline(s), if any.

  if (hlines.length > 0) {
    const line = buildCommon.makeLineSpan("hline", options, 0.05);
    const dashes = buildCommon.makeLineSpan("hdashline", options, 0.05);
    const vListElems = [{
      type: "elem",
      elem: body,
      shift: 0
    }];

    while (hlines.length > 0) {
      const hline = hlines.pop();
      const lineShift = hline.pos - offset;

      if (hline.isDashed) {
        vListElems.push({
          type: "elem",
          elem: dashes,
          shift: lineShift
        });
      } else {
        vListElems.push({
          type: "elem",
          elem: line,
          shift: lineShift
        });
      }
    }

    body = buildCommon.makeVList({
      positionType: "individualShift",
      children: vListElems
    }, options);
  }

  return buildCommon.makeSpan(["mord"], [body], options);
};

const mathmlBuilder$3 = function mathmlBuilder(group, options) {
  return new mathMLTree.MathNode("mtable", group.body.map(function (row) {
    return new mathMLTree.MathNode("mtr", row.map(function (cell) {
      return new mathMLTree.MathNode("mtd", [buildGroup$1(cell, options)]);
    }));
  }));
}; // Convenience function for aligned and alignedat environments.


const alignedHandler = function alignedHandler(context, args) {
  const cols = [];
  const res = parseArray(context.parser, {
    cols,
    addJot: true
  }, "display"); // Determining number of columns.
  // 1. If the first argument is given, we use it as a number of columns,
  //    and makes sure that each row doesn't exceed that number.
  // 2. Otherwise, just count number of columns = maximum number
  //    of cells in each row ("aligned" mode -- isAligned will be true).
  //
  // At the same time, prepend empty group {} at beginning of every second
  // cell in each row (starting with second cell) so that operators become
  // binary.  This behavior is implemented in amsmath's \start@aligned.

  let numMaths;
  let numCols = 0;
  const emptyGroup = {
    type: "ordgroup",
    mode: context.mode,
    body: []
  };
  const ordgroup = checkNodeType(args[0], "ordgroup");

  if (ordgroup) {
    let arg0 = "";

    for (let i = 0; i < ordgroup.body.length; i++) {
      const textord = assertNodeType(ordgroup.body[i], "textord");
      arg0 += textord.text;
    }

    numMaths = Number(arg0);
    numCols = numMaths * 2;
  }

  const isAligned = !numCols;
  res.body.forEach(function (row) {
    for (let i = 1; i < row.length; i += 2) {
      // Modify ordgroup node within styling node
      const styling = assertNodeType(row[i], "styling");
      const ordgroup = assertNodeType(styling.body[0], "ordgroup");
      ordgroup.body.unshift(emptyGroup);
    }

    if (!isAligned) {
      // Case 1
      const curMaths = row.length / 2;

      if (numMaths < curMaths) {
        throw new ParseError("Too many math in a row: " + `expected ${numMaths}, but got ${curMaths}`, row[0]);
      }
    } else if (numCols < row.length) {
      // Case 2
      numCols = row.length;
    }
  }); // Adjusting alignment.
  // In aligned mode, we add one \qquad between columns;
  // otherwise we add nothing.

  for (let i = 0; i < numCols; ++i) {
    let align = "r";
    let pregap = 0;

    if (i % 2 === 1) {
      align = "l";
    } else if (i > 0 && isAligned) {
      // "aligned" mode.
      pregap = 1; // add one \quad
    }

    cols[i] = {
      type: "align",
      align: align,
      pregap: pregap,
      postgap: 0
    };
  }

  return res;
}; // Arrays are part of LaTeX, defined in lttab.dtx so its documentation
// is part of the source2e.pdf file of LaTeX2e source documentation.
// {darray} is an {array} environment where cells are set in \displaystyle,
// as defined in nccmath.sty.


defineEnvironment({
  type: "array",
  names: ["array", "darray"],
  props: {
    numArgs: 1
  },

  handler(context, args) {
    // Since no types are specified above, the two possibilities are
    // - The argument is wrapped in {} or [], in which case Parser's
    //   parseGroup() returns an "ordgroup" wrapping some symbol node.
    // - The argument is a bare symbol node.
    const symNode = checkSymbolNodeType(args[0]);
    const colalign = symNode ? [args[0]] : assertNodeType(args[0], "ordgroup").body;
    const cols = colalign.map(function (nde) {
      const node = assertSymbolNodeType(nde);
      const ca = node.text;

      if ("lcr".indexOf(ca) !== -1) {
        return {
          type: "align",
          align: ca
        };
      } else if (ca === "|") {
        return {
          type: "separator",
          separator: "|"
        };
      } else if (ca === ":") {
        return {
          type: "separator",
          separator: ":"
        };
      }

      throw new ParseError("Unknown column alignment: " + ca, nde);
    });
    const res = {
      cols,
      hskipBeforeAndAfter: true // \@preamble in lttab.dtx

    };
    return parseArray(context.parser, res, dCellStyle(context.envName));
  },

  htmlBuilder: htmlBuilder$3,
  mathmlBuilder: mathmlBuilder$3
}); // The matrix environments of amsmath builds on the array environment
// of LaTeX, which is discussed above.

defineEnvironment({
  type: "array",
  names: ["matrix", "pmatrix", "bmatrix", "Bmatrix", "vmatrix", "Vmatrix"],
  props: {
    numArgs: 0
  },

  handler(context) {
    const delimiters = {
      "matrix": null,
      "pmatrix": ["(", ")"],
      "bmatrix": ["[", "]"],
      "Bmatrix": ["\\{", "\\}"],
      "vmatrix": ["|", "|"],
      "Vmatrix": ["\\Vert", "\\Vert"]
    }[context.envName]; // \hskip -\arraycolsep in amsmath

    const payload = {
      hskipBeforeAndAfter: false
    };
    const res = parseArray(context.parser, payload, dCellStyle(context.envName));
    return delimiters ? {
      type: "leftright",
      mode: context.mode,
      body: [res],
      left: delimiters[0],
      right: delimiters[1]
    } : res;
  },

  htmlBuilder: htmlBuilder$3,
  mathmlBuilder: mathmlBuilder$3
}); // A cases environment (in amsmath.sty) is almost equivalent to
// \def\arraystretch{1.2}%
// \left\{\begin{array}{@{}l@{\quad}l@{}} … \end{array}\right.
// {dcases} is a {cases} environment where cells are set in \displaystyle,
// as defined in mathtools.sty.

defineEnvironment({
  type: "array",
  names: ["cases", "dcases"],
  props: {
    numArgs: 0
  },

  handler(context) {
    const payload = {
      arraystretch: 1.2,
      cols: [{
        type: "align",
        align: "l",
        pregap: 0,
        // TODO(kevinb) get the current style.
        // For now we use the metrics for TEXT style which is what we were
        // doing before.  Before attempting to get the current style we
        // should look at TeX's behavior especially for \over and matrices.
        postgap: 1.0
        /* 1em quad */

      }, {
        type: "align",
        align: "l",
        pregap: 0,
        postgap: 0
      }]
    };
    const res = parseArray(context.parser, payload, dCellStyle(context.envName));
    return {
      type: "leftright",
      mode: context.mode,
      body: [res],
      left: "\\{",
      right: "."
    };
  },

  htmlBuilder: htmlBuilder$3,
  mathmlBuilder: mathmlBuilder$3
}); // An aligned environment is like the align* environment
// except it operates within math mode.
// Note that we assume \nomallineskiplimit to be zero,
// so that \strut@ is the same as \strut.

defineEnvironment({
  type: "array",
  names: ["aligned"],
  props: {
    numArgs: 0
  },
  handler: alignedHandler,
  htmlBuilder: htmlBuilder$3,
  mathmlBuilder: mathmlBuilder$3
}); // A gathered environment is like an array environment with one centered
// column, but where rows are considered lines so get \jot line spacing
// and contents are set in \displaystyle.

defineEnvironment({
  type: "array",
  names: ["gathered"],
  props: {
    numArgs: 0
  },

  handler(context) {
    const res = {
      cols: [{
        type: "align",
        align: "c"
      }],
      addJot: true
    };
    return parseArray(context.parser, res, "display");
  },

  htmlBuilder: htmlBuilder$3,
  mathmlBuilder: mathmlBuilder$3
}); // alignat environment is like an align environment, but one must explicitly
// specify maximum number of columns in each row, and can adjust spacing between
// each columns.

defineEnvironment({
  type: "array",
  names: ["alignedat"],
  // One for numbered and for unnumbered;
  // but, KaTeX doesn't supports math numbering yet,
  // they make no difference for now.
  props: {
    numArgs: 1
  },
  handler: alignedHandler,
  htmlBuilder: htmlBuilder$3,
  mathmlBuilder: mathmlBuilder$3
}); // Catch \hline outside array environment

defineFunction({
  type: "text",
  // Doesn't matter what this is.
  names: ["\\hline", "\\hdashline"],
  props: {
    numArgs: 0,
    allowedInText: true,
    allowedInMath: true
  },

  handler(context, args) {
    throw new ParseError(`${context.funcName} valid only within array environment`);
  }

});

const environments = _environments;

// defineEnvironment definitions.
// $FlowFixMe, "environment" handler returns an environment ParseNode

defineFunction({
  type: "environment",
  names: ["\\begin", "\\end"],
  props: {
    numArgs: 1,
    argTypes: ["text"]
  },

  handler(_ref, args) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const nameGroup = args[0];

    if (nameGroup.type !== "ordgroup") {
      throw new ParseError("Invalid environment name", nameGroup);
    }

    let envName = "";

    for (let i = 0; i < nameGroup.body.length; ++i) {
      envName += assertNodeType(nameGroup.body[i], "textord").text;
    }

    if (funcName === "\\begin") {
      // begin...end is similar to left...right
      if (!environments.hasOwnProperty(envName)) {
        throw new ParseError("No such environment: " + envName, nameGroup);
      } // Build the environment object. Arguments and other information will
      // be made available to the begin and end methods using properties.


      const env = environments[envName];

      const _parser$parseArgument = parser.parseArguments("\\begin{" + envName + "}", env),
            args = _parser$parseArgument.args,
            optArgs = _parser$parseArgument.optArgs;

      const context = {
        mode: parser.mode,
        envName,
        parser
      };
      const result = env.handler(context, args, optArgs);
      parser.expect("\\end", false);
      const endNameToken = parser.nextToken;
      const end = assertNodeType(parser.parseFunction(), "environment");

      if (end.name !== envName) {
        throw new ParseError(`Mismatch: \\begin{${envName}} matched by \\end{${end.name}}`, endNameToken);
      }

      return result;
    }

    return {
      type: "environment",
      mode: parser.mode,
      name: envName,
      nameGroup
    };
  }

});

const makeSpan$2 = buildCommon.makeSpan;

function htmlBuilder$4(group, options) {
  const elements = buildExpression(group.body, options, true);
  return makeSpan$2([group.mclass], elements, options);
}

function mathmlBuilder$4(group, options) {
  const inner = buildExpression$1(group.body, options);
  return mathMLTree.newDocumentFragment(inner);
} // Math class commands except \mathop


defineFunction({
  type: "mclass",
  names: ["\\mathord", "\\mathbin", "\\mathrel", "\\mathopen", "\\mathclose", "\\mathpunct", "\\mathinner"],
  props: {
    numArgs: 1
  },

  handler(_ref, args) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const body = args[0];
    return {
      type: "mclass",
      mode: parser.mode,
      mclass: "m" + funcName.substr(5),
      body: ordargument(body)
    };
  },

  htmlBuilder: htmlBuilder$4,
  mathmlBuilder: mathmlBuilder$4
});
const binrelClass = arg => {
  // \binrel@ spacing varies with (bin|rel|ord) of the atom in the argument.
  // (by rendering separately and with {}s before and after, and measuring
  // the change in spacing).  We'll do roughly the same by detecting the
  // atom type directly.
  const atom = arg.type === "ordgroup" && arg.body.length ? arg.body[0] : arg;

  if (atom.type === "atom" && (atom.family === "bin" || atom.family === "rel")) {
    return "m" + atom.family;
  } else {
    return "mord";
  }
}; // \@binrel{x}{y} renders like y but as mbin/mrel/mord if x is mbin/mrel/mord.
// This is equivalent to \binrel@{x}\binrel@@{y} in AMSTeX.

defineFunction({
  type: "mclass",
  names: ["\\@binrel"],
  props: {
    numArgs: 2
  },

  handler(_ref2, args) {
    let parser = _ref2.parser;
    return {
      type: "mclass",
      mode: parser.mode,
      mclass: binrelClass(args[0]),
      body: [args[1]]
    };
  }

}); // Build a relation or stacked op by placing one symbol on top of another

defineFunction({
  type: "mclass",
  names: ["\\stackrel", "\\overset", "\\underset"],
  props: {
    numArgs: 2
  },

  handler(_ref3, args) {
    let parser = _ref3.parser,
        funcName = _ref3.funcName;
    const baseArg = args[1];
    const shiftedArg = args[0];
    let mclass;

    if (funcName !== "\\stackrel") {
      // LaTeX applies \binrel spacing to \overset and \underset.
      mclass = binrelClass(baseArg);
    } else {
      mclass = "mrel"; // for \stackrel
    }

    const baseOp = {
      type: "op",
      mode: baseArg.mode,
      limits: true,
      alwaysHandleSupSub: true,
      symbol: false,
      suppressBaseShift: funcName !== "\\stackrel",
      body: ordargument(baseArg)
    };
    const supsub = {
      type: "supsub",
      mode: shiftedArg.mode,
      base: baseOp,
      sup: funcName === "\\underset" ? null : shiftedArg,
      sub: funcName === "\\underset" ? shiftedArg : null
    };
    return {
      type: "mclass",
      mode: parser.mode,
      mclass,
      body: [supsub]
    };
  },

  htmlBuilder: htmlBuilder$4,
  mathmlBuilder: mathmlBuilder$4
});

// TODO(kevinb): implement \\sl and \\sc

const htmlBuilder$5 = (group, options) => {
  const font = group.font;
  const newOptions = options.withFont(font);
  return buildGroup(group.body, newOptions);
};

const mathmlBuilder$5 = (group, options) => {
  const font = group.font;
  const newOptions = options.withFont(font);
  return buildGroup$1(group.body, newOptions);
};

const fontAliases = {
  "\\Bbb": "\\mathbb",
  "\\bold": "\\mathbf",
  "\\frak": "\\mathfrak",
  "\\bm": "\\boldsymbol"
};
defineFunction({
  type: "font",
  names: [// styles, except \boldsymbol defined below
  "\\mathrm", "\\mathit", "\\mathbf", "\\mathnormal", // families
  "\\mathbb", "\\mathcal", "\\mathfrak", "\\mathscr", "\\mathsf", "\\mathtt", // aliases, except \bm defined below
  "\\Bbb", "\\bold", "\\frak"],
  props: {
    numArgs: 1,
    greediness: 2
  },
  handler: (_ref, args) => {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const body = args[0];
    let func = funcName;

    if (func in fontAliases) {
      func = fontAliases[func];
    }

    return {
      type: "font",
      mode: parser.mode,
      font: func.slice(1),
      body
    };
  },
  htmlBuilder: htmlBuilder$5,
  mathmlBuilder: mathmlBuilder$5
});
defineFunction({
  type: "mclass",
  names: ["\\boldsymbol", "\\bm"],
  props: {
    numArgs: 1,
    greediness: 2
  },
  handler: (_ref2, args) => {
    let parser = _ref2.parser;
    const body = args[0]; // amsbsy.sty's \boldsymbol uses \binrel spacing to inherit the
    // argument's bin|rel|ord status

    return {
      type: "mclass",
      mode: parser.mode,
      mclass: binrelClass(body),
      body: [{
        type: "font",
        mode: parser.mode,
        font: "boldsymbol",
        body
      }]
    };
  }
}); // Old font changing functions

defineFunction({
  type: "font",
  names: ["\\rm", "\\sf", "\\tt", "\\bf", "\\it"],
  props: {
    numArgs: 0,
    allowedInText: true
  },
  handler: (_ref3, args) => {
    let parser = _ref3.parser,
        funcName = _ref3.funcName,
        breakOnTokenText = _ref3.breakOnTokenText;
    const mode = parser.mode;
    const body = parser.parseExpression(true, breakOnTokenText);
    const style = `math${funcName.slice(1)}`;
    return {
      type: "font",
      mode: mode,
      font: style,
      body: {
        type: "ordgroup",
        mode: parser.mode,
        body
      }
    };
  },
  htmlBuilder: htmlBuilder$5,
  mathmlBuilder: mathmlBuilder$5
});

const htmlBuilder$6 = (group, options) => {
  // Fractions are handled in the TeXbook on pages 444-445, rules 15(a-e).
  // Figure out what style this fraction should be in based on the
  // function used
  let style = options.style;

  if (group.size === "display") {
    style = Style$1.DISPLAY;
  } else if (group.size === "text" && style.size === Style$1.DISPLAY.size) {
    // We're in a \tfrac but incoming style is displaystyle, so:
    style = Style$1.TEXT;
  } else if (group.size === "script") {
    style = Style$1.SCRIPT;
  } else if (group.size === "scriptscript") {
    style = Style$1.SCRIPTSCRIPT;
  }

  const nstyle = style.fracNum();
  const dstyle = style.fracDen();
  let newOptions;
  newOptions = options.havingStyle(nstyle);
  const numerm = buildGroup(group.numer, newOptions, options);

  if (group.continued) {
    // \cfrac inserts a \strut into the numerator.
    // Get \strut dimensions from TeXbook page 353.
    const hStrut = 8.5 / options.fontMetrics().ptPerEm;
    const dStrut = 3.5 / options.fontMetrics().ptPerEm;
    numerm.height = numerm.height < hStrut ? hStrut : numerm.height;
    numerm.depth = numerm.depth < dStrut ? dStrut : numerm.depth;
  }

  newOptions = options.havingStyle(dstyle);
  const denomm = buildGroup(group.denom, newOptions, options);
  let rule;
  let ruleWidth;
  let ruleSpacing;

  if (group.hasBarLine) {
    if (group.barSize) {
      ruleWidth = calculateSize(group.barSize, options);
      rule = buildCommon.makeLineSpan("frac-line", options, ruleWidth);
    } else {
      rule = buildCommon.makeLineSpan("frac-line", options);
    }

    ruleWidth = rule.height;
    ruleSpacing = rule.height;
  } else {
    rule = null;
    ruleWidth = 0;
    ruleSpacing = options.fontMetrics().defaultRuleThickness;
  } // Rule 15b


  let numShift;
  let clearance;
  let denomShift;

  if (style.size === Style$1.DISPLAY.size) {
    numShift = options.fontMetrics().num1;

    if (ruleWidth > 0) {
      clearance = 3 * ruleSpacing;
    } else {
      clearance = 7 * ruleSpacing;
    }

    denomShift = options.fontMetrics().denom1;
  } else {
    if (ruleWidth > 0) {
      numShift = options.fontMetrics().num2;
      clearance = ruleSpacing;
    } else {
      numShift = options.fontMetrics().num3;
      clearance = 3 * ruleSpacing;
    }

    denomShift = options.fontMetrics().denom2;
  }

  let frac;

  if (!rule) {
    // Rule 15c
    const candidateClearance = numShift - numerm.depth - (denomm.height - denomShift);

    if (candidateClearance < clearance) {
      numShift += 0.5 * (clearance - candidateClearance);
      denomShift += 0.5 * (clearance - candidateClearance);
    }

    frac = buildCommon.makeVList({
      positionType: "individualShift",
      children: [{
        type: "elem",
        elem: denomm,
        shift: denomShift
      }, {
        type: "elem",
        elem: numerm,
        shift: -numShift
      }]
    }, options);
  } else {
    // Rule 15d
    const axisHeight = options.fontMetrics().axisHeight;

    if (numShift - numerm.depth - (axisHeight + 0.5 * ruleWidth) < clearance) {
      numShift += clearance - (numShift - numerm.depth - (axisHeight + 0.5 * ruleWidth));
    }

    if (axisHeight - 0.5 * ruleWidth - (denomm.height - denomShift) < clearance) {
      denomShift += clearance - (axisHeight - 0.5 * ruleWidth - (denomm.height - denomShift));
    }

    const midShift = -(axisHeight - 0.5 * ruleWidth);
    frac = buildCommon.makeVList({
      positionType: "individualShift",
      children: [{
        type: "elem",
        elem: denomm,
        shift: denomShift
      }, {
        type: "elem",
        elem: rule,
        shift: midShift
      }, {
        type: "elem",
        elem: numerm,
        shift: -numShift
      }]
    }, options);
  } // Since we manually change the style sometimes (with \dfrac or \tfrac),
  // account for the possible size change here.


  newOptions = options.havingStyle(style);
  frac.height *= newOptions.sizeMultiplier / options.sizeMultiplier;
  frac.depth *= newOptions.sizeMultiplier / options.sizeMultiplier; // Rule 15e

  let delimSize;

  if (style.size === Style$1.DISPLAY.size) {
    delimSize = options.fontMetrics().delim1;
  } else {
    delimSize = options.fontMetrics().delim2;
  }

  let leftDelim;
  let rightDelim;

  if (group.leftDelim == null) {
    leftDelim = makeNullDelimiter(options, ["mopen"]);
  } else {
    leftDelim = delimiter.customSizedDelim(group.leftDelim, delimSize, true, options.havingStyle(style), group.mode, ["mopen"]);
  }

  if (group.continued) {
    rightDelim = buildCommon.makeSpan([]); // zero width for \cfrac
  } else if (group.rightDelim == null) {
    rightDelim = makeNullDelimiter(options, ["mclose"]);
  } else {
    rightDelim = delimiter.customSizedDelim(group.rightDelim, delimSize, true, options.havingStyle(style), group.mode, ["mclose"]);
  }

  return buildCommon.makeSpan(["mord"].concat(newOptions.sizingClasses(options)), [leftDelim, buildCommon.makeSpan(["mfrac"], [frac]), rightDelim], options);
};

const mathmlBuilder$6 = (group, options) => {
  const node = new mathMLTree.MathNode("mfrac", [buildGroup$1(group.numer, options), buildGroup$1(group.denom, options)]);

  if (!group.hasBarLine) {
    node.setAttribute("linethickness", "0px");
  } else if (group.barSize) {
    const ruleWidth = calculateSize(group.barSize, options);
    node.setAttribute("linethickness", ruleWidth + "em");
  }

  if (group.leftDelim != null || group.rightDelim != null) {
    const withDelims = [];

    if (group.leftDelim != null) {
      const leftOp = new mathMLTree.MathNode("mo", [new mathMLTree.TextNode(group.leftDelim)]);
      leftOp.setAttribute("fence", "true");
      withDelims.push(leftOp);
    }

    withDelims.push(node);

    if (group.rightDelim != null) {
      const rightOp = new mathMLTree.MathNode("mo", [new mathMLTree.TextNode(group.rightDelim)]);
      rightOp.setAttribute("fence", "true");
      withDelims.push(rightOp);
    }

    return makeRow(withDelims);
  }

  return node;
};

defineFunction({
  type: "genfrac",
  names: ["\\cfrac", "\\dfrac", "\\frac", "\\tfrac", "\\dbinom", "\\binom", "\\tbinom", "\\\\atopfrac", // can’t be entered directly
  "\\\\bracefrac", "\\\\brackfrac"],
  props: {
    numArgs: 2,
    greediness: 2
  },
  handler: (_ref, args) => {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const numer = args[0];
    const denom = args[1];
    let hasBarLine;
    let leftDelim = null;
    let rightDelim = null;
    let size = "auto";

    switch (funcName) {
      case "\\cfrac":
      case "\\dfrac":
      case "\\frac":
      case "\\tfrac":
        hasBarLine = true;
        break;

      case "\\\\atopfrac":
        hasBarLine = false;
        break;

      case "\\dbinom":
      case "\\binom":
      case "\\tbinom":
        hasBarLine = false;
        leftDelim = "(";
        rightDelim = ")";
        break;

      case "\\\\bracefrac":
        hasBarLine = false;
        leftDelim = "\\{";
        rightDelim = "\\}";
        break;

      case "\\\\brackfrac":
        hasBarLine = false;
        leftDelim = "[";
        rightDelim = "]";
        break;

      default:
        throw new Error("Unrecognized genfrac command");
    }

    switch (funcName) {
      case "\\cfrac":
      case "\\dfrac":
      case "\\dbinom":
        size = "display";
        break;

      case "\\tfrac":
      case "\\tbinom":
        size = "text";
        break;
    }

    return {
      type: "genfrac",
      mode: parser.mode,
      continued: funcName === "\\cfrac",
      numer,
      denom,
      hasBarLine,
      leftDelim,
      rightDelim,
      size,
      barSize: null
    };
  },
  htmlBuilder: htmlBuilder$6,
  mathmlBuilder: mathmlBuilder$6
}); // Infix generalized fractions -- these are not rendered directly, but replaced
// immediately by one of the variants above.

defineFunction({
  type: "infix",
  names: ["\\over", "\\choose", "\\atop", "\\brace", "\\brack"],
  props: {
    numArgs: 0,
    infix: true
  },

  handler(_ref2) {
    let parser = _ref2.parser,
        funcName = _ref2.funcName,
        token = _ref2.token;
    let replaceWith;

    switch (funcName) {
      case "\\over":
        replaceWith = "\\frac";
        break;

      case "\\choose":
        replaceWith = "\\binom";
        break;

      case "\\atop":
        replaceWith = "\\\\atopfrac";
        break;

      case "\\brace":
        replaceWith = "\\\\bracefrac";
        break;

      case "\\brack":
        replaceWith = "\\\\brackfrac";
        break;

      default:
        throw new Error("Unrecognized infix genfrac command");
    }

    return {
      type: "infix",
      mode: parser.mode,
      replaceWith,
      token
    };
  }

});
const stylArray = ["display", "text", "script", "scriptscript"];

const delimFromValue = function delimFromValue(delimString) {
  let delim = null;

  if (delimString.length > 0) {
    delim = delimString;
    delim = delim === "." ? null : delim;
  }

  return delim;
};

defineFunction({
  type: "genfrac",
  names: ["\\genfrac"],
  props: {
    numArgs: 6,
    greediness: 6,
    argTypes: ["math", "math", "size", "text", "math", "math"]
  },

  handler(_ref3, args) {
    let parser = _ref3.parser;
    const numer = args[4];
    const denom = args[5]; // Look into the parse nodes to get the desired delimiters.

    let leftNode = checkNodeType(args[0], "atom");

    if (leftNode) {
      leftNode = assertAtomFamily(args[0], "open");
    }

    const leftDelim = leftNode ? delimFromValue(leftNode.text) : null;
    let rightNode = checkNodeType(args[1], "atom");

    if (rightNode) {
      rightNode = assertAtomFamily(args[1], "close");
    }

    const rightDelim = rightNode ? delimFromValue(rightNode.text) : null;
    const barNode = assertNodeType(args[2], "size");
    let hasBarLine;
    let barSize = null;

    if (barNode.isBlank) {
      // \genfrac acts differently than \above.
      // \genfrac treats an empty size group as a signal to use a
      // standard bar size. \above would see size = 0 and omit the bar.
      hasBarLine = true;
    } else {
      barSize = barNode.value;
      hasBarLine = barSize.number > 0;
    } // Find out if we want displaystyle, textstyle, etc.


    let size = "auto";
    let styl = checkNodeType(args[3], "ordgroup");

    if (styl) {
      if (styl.body.length > 0) {
        const textOrd = assertNodeType(styl.body[0], "textord");
        size = stylArray[Number(textOrd.text)];
      }
    } else {
      styl = assertNodeType(args[3], "textord");
      size = stylArray[Number(styl.text)];
    }

    return {
      type: "genfrac",
      mode: parser.mode,
      numer,
      denom,
      continued: false,
      hasBarLine,
      barSize,
      leftDelim,
      rightDelim,
      size
    };
  },

  htmlBuilder: htmlBuilder$6,
  mathmlBuilder: mathmlBuilder$6
}); // \above is an infix fraction that also defines a fraction bar size.

defineFunction({
  type: "infix",
  names: ["\\above"],
  props: {
    numArgs: 1,
    argTypes: ["size"],
    infix: true
  },

  handler(_ref4, args) {
    let parser = _ref4.parser,
        funcName = _ref4.funcName,
        token = _ref4.token;
    return {
      type: "infix",
      mode: parser.mode,
      replaceWith: "\\\\abovefrac",
      size: assertNodeType(args[0], "size").value,
      token
    };
  }

});
defineFunction({
  type: "genfrac",
  names: ["\\\\abovefrac"],
  props: {
    numArgs: 3,
    argTypes: ["math", "size", "math"]
  },
  handler: (_ref5, args) => {
    let parser = _ref5.parser,
        funcName = _ref5.funcName;
    const numer = args[0];
    const barSize = assert(assertNodeType(args[1], "infix").size);
    const denom = args[2];
    const hasBarLine = barSize.number > 0;
    return {
      type: "genfrac",
      mode: parser.mode,
      numer,
      denom,
      continued: false,
      hasBarLine,
      barSize,
      leftDelim: null,
      rightDelim: null,
      size: "auto"
    };
  },
  htmlBuilder: htmlBuilder$6,
  mathmlBuilder: mathmlBuilder$6
});

// NOTE: Unlike most `htmlBuilder`s, this one handles not only "horizBrace", but
const htmlBuilder$7 = (grp, options) => {
  const style = options.style; // Pull out the `ParseNode<"horizBrace">` if `grp` is a "supsub" node.

  let supSubGroup;
  let group;
  const supSub = checkNodeType(grp, "supsub");

  if (supSub) {
    // Ref: LaTeX source2e: }}}}\limits}
    // i.e. LaTeX treats the brace similar to an op and passes it
    // with \limits, so we need to assign supsub style.
    supSubGroup = supSub.sup ? buildGroup(supSub.sup, options.havingStyle(style.sup()), options) : buildGroup(supSub.sub, options.havingStyle(style.sub()), options);
    group = assertNodeType(supSub.base, "horizBrace");
  } else {
    group = assertNodeType(grp, "horizBrace");
  } // Build the base group


  const body = buildGroup(group.base, options.havingBaseStyle(Style$1.DISPLAY)); // Create the stretchy element

  const braceBody = stretchy.svgSpan(group, options); // Generate the vlist, with the appropriate kerns        ┏━━━━━━━━┓
  // This first vlist contains the content and the brace:   equation

  let vlist;

  if (group.isOver) {
    vlist = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: body
      }, {
        type: "kern",
        size: 0.1
      }, {
        type: "elem",
        elem: braceBody
      }]
    }, options); // $FlowFixMe: Replace this with passing "svg-align" into makeVList.

    vlist.children[0].children[0].children[1].classes.push("svg-align");
  } else {
    vlist = buildCommon.makeVList({
      positionType: "bottom",
      positionData: body.depth + 0.1 + braceBody.height,
      children: [{
        type: "elem",
        elem: braceBody
      }, {
        type: "kern",
        size: 0.1
      }, {
        type: "elem",
        elem: body
      }]
    }, options); // $FlowFixMe: Replace this with passing "svg-align" into makeVList.

    vlist.children[0].children[0].children[0].classes.push("svg-align");
  }

  if (supSubGroup) {
    // To write the supsub, wrap the first vlist in another vlist:
    // They can't all go in the same vlist, because the note might be
    // wider than the equation. We want the equation to control the
    // brace width.
    //      note          long note           long note
    //   ┏━━━━━━━━┓   or    ┏━━━┓     not    ┏━━━━━━━━━┓
    //    equation           eqn                 eqn
    const vSpan = buildCommon.makeSpan(["mord", group.isOver ? "mover" : "munder"], [vlist], options);

    if (group.isOver) {
      vlist = buildCommon.makeVList({
        positionType: "firstBaseline",
        children: [{
          type: "elem",
          elem: vSpan
        }, {
          type: "kern",
          size: 0.2
        }, {
          type: "elem",
          elem: supSubGroup
        }]
      }, options);
    } else {
      vlist = buildCommon.makeVList({
        positionType: "bottom",
        positionData: vSpan.depth + 0.2 + supSubGroup.height + supSubGroup.depth,
        children: [{
          type: "elem",
          elem: supSubGroup
        }, {
          type: "kern",
          size: 0.2
        }, {
          type: "elem",
          elem: vSpan
        }]
      }, options);
    }
  }

  return buildCommon.makeSpan(["mord", group.isOver ? "mover" : "munder"], [vlist], options);
};

const mathmlBuilder$7 = (group, options) => {
  const accentNode = stretchy.mathMLnode(group.label);
  return new mathMLTree.MathNode(group.isOver ? "mover" : "munder", [buildGroup$1(group.base, options), accentNode]);
}; // Horizontal stretchy braces


defineFunction({
  type: "horizBrace",
  names: ["\\overbrace", "\\underbrace"],
  props: {
    numArgs: 1
  },

  handler(_ref, args) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    return {
      type: "horizBrace",
      mode: parser.mode,
      label: funcName,
      isOver: /^\\over/.test(funcName),
      base: args[0]
    };
  },

  htmlBuilder: htmlBuilder$7,
  mathmlBuilder: mathmlBuilder$7
});

defineFunction({
  type: "href",
  names: ["\\href"],
  props: {
    numArgs: 2,
    argTypes: ["url", "original"],
    allowedInText: true
  },
  handler: (_ref, args) => {
    let parser = _ref.parser;
    const body = args[1];
    const href = assertNodeType(args[0], "url").url;
    return {
      type: "href",
      mode: parser.mode,
      href,
      body: ordargument(body)
    };
  },
  htmlBuilder: (group, options) => {
    const elements = buildExpression(group.body, options, false);
    return buildCommon.makeAnchor(group.href, [], elements, options);
  },
  mathmlBuilder: (group, options) => {
    let math = buildExpressionRow(group.body, options);

    if (!(math instanceof MathNode)) {
      math = new MathNode("mrow", [math]);
    }

    math.setAttribute("href", group.href);
    return math;
  }
});
defineFunction({
  type: "href",
  names: ["\\url"],
  props: {
    numArgs: 1,
    argTypes: ["url"],
    allowedInText: true
  },
  handler: (_ref2, args) => {
    let parser = _ref2.parser;
    const href = assertNodeType(args[0], "url").url;
    const chars = [];

    for (let i = 0; i < href.length; i++) {
      let c = href[i];

      if (c === "~") {
        c = "\\textasciitilde";
      }

      chars.push({
        type: "textord",
        mode: "text",
        text: c
      });
    }

    const body = {
      type: "text",
      mode: parser.mode,
      font: "\\texttt",
      body: chars
    };
    return {
      type: "href",
      mode: parser.mode,
      href,
      body: ordargument(body)
    };
  }
});

defineFunction({
  type: "htmlmathml",
  names: ["\\html@mathml"],
  props: {
    numArgs: 2,
    allowedInText: true
  },
  handler: (_ref, args) => {
    let parser = _ref.parser;
    return {
      type: "htmlmathml",
      mode: parser.mode,
      html: ordargument(args[0]),
      mathml: ordargument(args[1])
    };
  },
  htmlBuilder: (group, options) => {
    const elements = buildExpression(group.html, options, false);
    return buildCommon.makeFragment(elements);
  },
  mathmlBuilder: (group, options) => {
    return buildExpressionRow(group.mathml, options);
  }
});

// Horizontal spacing commands

defineFunction({
  type: "kern",
  names: ["\\kern", "\\mkern", "\\hskip", "\\mskip"],
  props: {
    numArgs: 1,
    argTypes: ["size"],
    allowedInText: true
  },

  handler(_ref, args) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const size = assertNodeType(args[0], "size");

    if (parser.settings.strict) {
      const mathFunction = funcName[1] === 'm'; // \mkern, \mskip

      const muUnit = size.value.unit === 'mu';

      if (mathFunction) {
        if (!muUnit) {
          parser.settings.reportNonstrict("mathVsTextUnits", `LaTeX's ${funcName} supports only mu units, ` + `not ${size.value.unit} units`);
        }

        if (parser.mode !== "math") {
          parser.settings.reportNonstrict("mathVsTextUnits", `LaTeX's ${funcName} works only in math mode`);
        }
      } else {
        // !mathFunction
        if (muUnit) {
          parser.settings.reportNonstrict("mathVsTextUnits", `LaTeX's ${funcName} doesn't support mu units`);
        }
      }
    }

    return {
      type: "kern",
      mode: parser.mode,
      dimension: size.value
    };
  },

  htmlBuilder(group, options) {
    return buildCommon.makeGlue(group.dimension, options);
  },

  mathmlBuilder(group, options) {
    const dimension = calculateSize(group.dimension, options);
    return new mathMLTree.SpaceNode(dimension);
  }

});

// Horizontal overlap functions
defineFunction({
  type: "lap",
  names: ["\\mathllap", "\\mathrlap", "\\mathclap"],
  props: {
    numArgs: 1,
    allowedInText: true
  },
  handler: (_ref, args) => {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const body = args[0];
    return {
      type: "lap",
      mode: parser.mode,
      alignment: funcName.slice(5),
      body
    };
  },
  htmlBuilder: (group, options) => {
    // mathllap, mathrlap, mathclap
    let inner;

    if (group.alignment === "clap") {
      // ref: https://www.math.lsu.edu/~aperlis/publications/mathclap/
      inner = buildCommon.makeSpan([], [buildGroup(group.body, options)]); // wrap, since CSS will center a .clap > .inner > span

      inner = buildCommon.makeSpan(["inner"], [inner], options);
    } else {
      inner = buildCommon.makeSpan(["inner"], [buildGroup(group.body, options)]);
    }

    const fix = buildCommon.makeSpan(["fix"], []);
    let node = buildCommon.makeSpan([group.alignment], [inner, fix], options); // At this point, we have correctly set horizontal alignment of the
    // two items involved in the lap.
    // Next, use a strut to set the height of the HTML bounding box.
    // Otherwise, a tall argument may be misplaced.

    const strut = buildCommon.makeSpan(["strut"]);
    strut.style.height = node.height + node.depth + "em";
    strut.style.verticalAlign = -node.depth + "em";
    node.children.unshift(strut); // Next, prevent vertical misplacement when next to something tall.

    node = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: node
      }]
    }, options); // Get the horizontal spacing correct relative to adjacent items.

    return buildCommon.makeSpan(["mord"], [node], options);
  },
  mathmlBuilder: (group, options) => {
    // mathllap, mathrlap, mathclap
    const node = new mathMLTree.MathNode("mpadded", [buildGroup$1(group.body, options)]);

    if (group.alignment !== "rlap") {
      const offset = group.alignment === "llap" ? "-1" : "-0.5";
      node.setAttribute("lspace", offset + "width");
    }

    node.setAttribute("width", "0px");
    return node;
  }
});

defineFunction({
  type: "styling",
  names: ["\\(", "$"],
  props: {
    numArgs: 0,
    allowedInText: true,
    allowedInMath: false,
    consumeMode: "math"
  },

  handler(_ref, args) {
    let funcName = _ref.funcName,
        parser = _ref.parser;
    const outerMode = parser.mode;
    parser.switchMode("math");
    const close = funcName === "\\(" ? "\\)" : "$";
    const body = parser.parseExpression(false, close); // We can't expand the next symbol after the closing $ until after
    // switching modes back.  So don't consume within expect.

    parser.expect(close, false);
    parser.switchMode(outerMode);
    parser.consume();
    return {
      type: "styling",
      mode: parser.mode,
      style: "text",
      body
    };
  }

}); // Check for extra closing math delimiters

defineFunction({
  type: "text",
  // Doesn't matter what this is.
  names: ["\\)", "\\]"],
  props: {
    numArgs: 0,
    allowedInText: true,
    allowedInMath: false
  },

  handler(context, args) {
    throw new ParseError(`Mismatched ${context.funcName}`);
  }

});

const chooseMathStyle = (group, options) => {
  switch (options.style.size) {
    case Style$1.DISPLAY.size:
      return group.display;

    case Style$1.TEXT.size:
      return group.text;

    case Style$1.SCRIPT.size:
      return group.script;

    case Style$1.SCRIPTSCRIPT.size:
      return group.scriptscript;

    default:
      return group.text;
  }
};

defineFunction({
  type: "mathchoice",
  names: ["\\mathchoice"],
  props: {
    numArgs: 4
  },
  handler: (_ref, args) => {
    let parser = _ref.parser;
    return {
      type: "mathchoice",
      mode: parser.mode,
      display: ordargument(args[0]),
      text: ordargument(args[1]),
      script: ordargument(args[2]),
      scriptscript: ordargument(args[3])
    };
  },
  htmlBuilder: (group, options) => {
    const body = chooseMathStyle(group, options);
    const elements = buildExpression(body, options, false);
    return buildCommon.makeFragment(elements);
  },
  mathmlBuilder: (group, options) => {
    const body = chooseMathStyle(group, options);
    return buildExpressionRow(body, options);
  }
});

// Limits, symbols
// NOTE: Unlike most `htmlBuilder`s, this one handles not only "op", but also
const htmlBuilder$8 = (grp, options) => {
  // Operators are handled in the TeXbook pg. 443-444, rule 13(a).
  let supGroup;
  let subGroup;
  let hasLimits = false;
  let group;
  const supSub = checkNodeType(grp, "supsub");

  if (supSub) {
    // If we have limits, supsub will pass us its group to handle. Pull
    // out the superscript and subscript and set the group to the op in
    // its base.
    supGroup = supSub.sup;
    subGroup = supSub.sub;
    group = assertNodeType(supSub.base, "op");
    hasLimits = true;
  } else {
    group = assertNodeType(grp, "op");
  }

  const style = options.style; // Most operators have a large successor symbol, but these don't.

  const noSuccessor = ["\\smallint"];
  let large = false;

  if (style.size === Style$1.DISPLAY.size && group.symbol && !utils.contains(noSuccessor, group.name)) {
    // Most symbol operators get larger in displaystyle (rule 13)
    large = true;
  }

  let base;

  if (group.symbol) {
    // If this is a symbol, create the symbol.
    const fontName = large ? "Size2-Regular" : "Size1-Regular";
    let stash = "";

    if (group.name === "\\oiint" || group.name === "\\oiiint") {
      // No font glyphs yet, so use a glyph w/o the oval.
      // TODO: When font glyphs are available, delete this code.
      stash = group.name.substr(1); // $FlowFixMe

      group.name = stash === "oiint" ? "\\iint" : "\\iiint";
    }

    base = buildCommon.makeSymbol(group.name, fontName, "math", options, ["mop", "op-symbol", large ? "large-op" : "small-op"]);

    if (stash.length > 0) {
      // We're in \oiint or \oiiint. Overlay the oval.
      // TODO: When font glyphs are available, delete this code.
      const italic = base.italic;
      const oval = buildCommon.staticSvg(stash + "Size" + (large ? "2" : "1"), options);
      base = buildCommon.makeVList({
        positionType: "individualShift",
        children: [{
          type: "elem",
          elem: base,
          shift: 0
        }, {
          type: "elem",
          elem: oval,
          shift: large ? 0.08 : 0
        }]
      }, options); // $FlowFixMe

      group.name = "\\" + stash;
      base.classes.unshift("mop"); // $FlowFixMe

      base.italic = italic;
    }
  } else if (group.body) {
    // If this is a list, compose that list.
    const inner = buildExpression(group.body, options, true);

    if (inner.length === 1 && inner[0] instanceof SymbolNode) {
      base = inner[0];
      base.classes[0] = "mop"; // replace old mclass
    } else {
      base = buildCommon.makeSpan(["mop"], buildCommon.tryCombineChars(inner), options);
    }
  } else {
    // Otherwise, this is a text operator. Build the text from the
    // operator's name.
    // TODO(emily): Add a space in the middle of some of these
    // operators, like \limsup
    const output = [];

    for (let i = 1; i < group.name.length; i++) {
      output.push(buildCommon.mathsym(group.name[i], group.mode));
    }

    base = buildCommon.makeSpan(["mop"], output, options);
  } // If content of op is a single symbol, shift it vertically.


  let baseShift = 0;
  let slant = 0;

  if ((base instanceof SymbolNode || group.name === "\\oiint" || group.name === "\\oiiint") && !group.suppressBaseShift) {
    // We suppress the shift of the base of \overset and \underset. Otherwise,
    // shift the symbol so its center lies on the axis (rule 13). It
    // appears that our fonts have the centers of the symbols already
    // almost on the axis, so these numbers are very small. Note we
    // don't actually apply this here, but instead it is used either in
    // the vlist creation or separately when there are no limits.
    baseShift = (base.height - base.depth) / 2 - options.fontMetrics().axisHeight; // The slant of the symbol is just its italic correction.
    // $FlowFixMe

    slant = base.italic;
  }

  if (hasLimits) {
    // IE 8 clips \int if it is in a display: inline-block. We wrap it
    // in a new span so it is an inline, and works.
    base = buildCommon.makeSpan([], [base]);
    let sub;
    let sup; // We manually have to handle the superscripts and subscripts. This,
    // aside from the kern calculations, is copied from supsub.

    if (supGroup) {
      const elem = buildGroup(supGroup, options.havingStyle(style.sup()), options);
      sup = {
        elem,
        kern: Math.max(options.fontMetrics().bigOpSpacing1, options.fontMetrics().bigOpSpacing3 - elem.depth)
      };
    }

    if (subGroup) {
      const elem = buildGroup(subGroup, options.havingStyle(style.sub()), options);
      sub = {
        elem,
        kern: Math.max(options.fontMetrics().bigOpSpacing2, options.fontMetrics().bigOpSpacing4 - elem.height)
      };
    } // Build the final group as a vlist of the possible subscript, base,
    // and possible superscript.


    let finalGroup;

    if (sup && sub) {
      const bottom = options.fontMetrics().bigOpSpacing5 + sub.elem.height + sub.elem.depth + sub.kern + base.depth + baseShift;
      finalGroup = buildCommon.makeVList({
        positionType: "bottom",
        positionData: bottom,
        children: [{
          type: "kern",
          size: options.fontMetrics().bigOpSpacing5
        }, {
          type: "elem",
          elem: sub.elem,
          marginLeft: -slant + "em"
        }, {
          type: "kern",
          size: sub.kern
        }, {
          type: "elem",
          elem: base
        }, {
          type: "kern",
          size: sup.kern
        }, {
          type: "elem",
          elem: sup.elem,
          marginLeft: slant + "em"
        }, {
          type: "kern",
          size: options.fontMetrics().bigOpSpacing5
        }]
      }, options);
    } else if (sub) {
      const top = base.height - baseShift; // Shift the limits by the slant of the symbol. Note
      // that we are supposed to shift the limits by 1/2 of the slant,
      // but since we are centering the limits adding a full slant of
      // margin will shift by 1/2 that.

      finalGroup = buildCommon.makeVList({
        positionType: "top",
        positionData: top,
        children: [{
          type: "kern",
          size: options.fontMetrics().bigOpSpacing5
        }, {
          type: "elem",
          elem: sub.elem,
          marginLeft: -slant + "em"
        }, {
          type: "kern",
          size: sub.kern
        }, {
          type: "elem",
          elem: base
        }]
      }, options);
    } else if (sup) {
      const bottom = base.depth + baseShift;
      finalGroup = buildCommon.makeVList({
        positionType: "bottom",
        positionData: bottom,
        children: [{
          type: "elem",
          elem: base
        }, {
          type: "kern",
          size: sup.kern
        }, {
          type: "elem",
          elem: sup.elem,
          marginLeft: slant + "em"
        }, {
          type: "kern",
          size: options.fontMetrics().bigOpSpacing5
        }]
      }, options);
    } else {
      // This case probably shouldn't occur (this would mean the
      // supsub was sending us a group with no superscript or
      // subscript) but be safe.
      return base;
    }

    return buildCommon.makeSpan(["mop", "op-limits"], [finalGroup], options);
  } else {
    if (baseShift) {
      base.style.position = "relative";
      base.style.top = baseShift + "em";
    }

    return base;
  }
};

const mathmlBuilder$8 = (group, options) => {
  let node; // TODO(emily): handle big operators using the `largeop` attribute

  if (group.symbol) {
    // This is a symbol. Just add the symbol.
    node = new MathNode("mo", [makeText(group.name, group.mode)]);
  } else if (group.body) {
    // This is an operator with children. Add them.
    node = new MathNode("mo", buildExpression$1(group.body, options));
  } else {
    // This is a text operator. Add all of the characters from the
    // operator's name.
    // TODO(emily): Add a space in the middle of some of these
    // operators, like \limsup.
    node = new MathNode("mi", [new TextNode(group.name.slice(1))]); // Append an <mo>&ApplyFunction;</mo>.
    // ref: https://www.w3.org/TR/REC-MathML/chap3_2.html#sec3.2.4

    const operator = new MathNode("mo", [makeText("\u2061", "text")]);
    return newDocumentFragment([node, operator]);
  }

  return node;
};

const singleCharBigOps = {
  "\u220F": "\\prod",
  "\u2210": "\\coprod",
  "\u2211": "\\sum",
  "\u22c0": "\\bigwedge",
  "\u22c1": "\\bigvee",
  "\u22c2": "\\bigcap",
  "\u22c3": "\\bigcup",
  "\u2a00": "\\bigodot",
  "\u2a01": "\\bigoplus",
  "\u2a02": "\\bigotimes",
  "\u2a04": "\\biguplus",
  "\u2a06": "\\bigsqcup"
};
defineFunction({
  type: "op",
  names: ["\\coprod", "\\bigvee", "\\bigwedge", "\\biguplus", "\\bigcap", "\\bigcup", "\\intop", "\\prod", "\\sum", "\\bigotimes", "\\bigoplus", "\\bigodot", "\\bigsqcup", "\\smallint", "\u220F", "\u2210", "\u2211", "\u22c0", "\u22c1", "\u22c2", "\u22c3", "\u2a00", "\u2a01", "\u2a02", "\u2a04", "\u2a06"],
  props: {
    numArgs: 0
  },
  handler: (_ref, args) => {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    let fName = funcName;

    if (fName.length === 1) {
      fName = singleCharBigOps[fName];
    }

    return {
      type: "op",
      mode: parser.mode,
      limits: true,
      symbol: true,
      name: fName
    };
  },
  htmlBuilder: htmlBuilder$8,
  mathmlBuilder: mathmlBuilder$8
}); // Note: calling defineFunction with a type that's already been defined only
// works because the same htmlBuilder and mathmlBuilder are being used.

defineFunction({
  type: "op",
  names: ["\\mathop"],
  props: {
    numArgs: 1
  },
  handler: (_ref2, args) => {
    let parser = _ref2.parser;
    const body = args[0];
    return {
      type: "op",
      mode: parser.mode,
      limits: false,
      symbol: false,
      body: ordargument(body)
    };
  },
  htmlBuilder: htmlBuilder$8,
  mathmlBuilder: mathmlBuilder$8
}); // There are 2 flags for operators; whether they produce limits in
// displaystyle, and whether they are symbols and should grow in
// displaystyle. These four groups cover the four possible choices.

const singleCharIntegrals = {
  "\u222b": "\\int",
  "\u222c": "\\iint",
  "\u222d": "\\iiint",
  "\u222e": "\\oint",
  "\u222f": "\\oiint",
  "\u2230": "\\oiiint"
}; // No limits, not symbols

defineFunction({
  type: "op",
  names: ["\\arcsin", "\\arccos", "\\arctan", "\\arctg", "\\arcctg", "\\arg", "\\ch", "\\cos", "\\cosec", "\\cosh", "\\cot", "\\cotg", "\\coth", "\\csc", "\\ctg", "\\cth", "\\deg", "\\dim", "\\exp", "\\hom", "\\ker", "\\lg", "\\ln", "\\log", "\\sec", "\\sin", "\\sinh", "\\sh", "\\tan", "\\tanh", "\\tg", "\\th"],
  props: {
    numArgs: 0
  },

  handler(_ref3) {
    let parser = _ref3.parser,
        funcName = _ref3.funcName;
    return {
      type: "op",
      mode: parser.mode,
      limits: false,
      symbol: false,
      name: funcName
    };
  },

  htmlBuilder: htmlBuilder$8,
  mathmlBuilder: mathmlBuilder$8
}); // Limits, not symbols

defineFunction({
  type: "op",
  names: ["\\det", "\\gcd", "\\inf", "\\lim", "\\max", "\\min", "\\Pr", "\\sup"],
  props: {
    numArgs: 0
  },

  handler(_ref4) {
    let parser = _ref4.parser,
        funcName = _ref4.funcName;
    return {
      type: "op",
      mode: parser.mode,
      limits: true,
      symbol: false,
      name: funcName
    };
  },

  htmlBuilder: htmlBuilder$8,
  mathmlBuilder: mathmlBuilder$8
}); // No limits, symbols

defineFunction({
  type: "op",
  names: ["\\int", "\\iint", "\\iiint", "\\oint", "\\oiint", "\\oiiint", "\u222b", "\u222c", "\u222d", "\u222e", "\u222f", "\u2230"],
  props: {
    numArgs: 0
  },

  handler(_ref5) {
    let parser = _ref5.parser,
        funcName = _ref5.funcName;
    let fName = funcName;

    if (fName.length === 1) {
      fName = singleCharIntegrals[fName];
    }

    return {
      type: "op",
      mode: parser.mode,
      limits: false,
      symbol: true,
      name: fName
    };
  },

  htmlBuilder: htmlBuilder$8,
  mathmlBuilder: mathmlBuilder$8
});

// amsopn.dtx: \mathop{#1\kern\z@\operator@font#3}\newmcodes@

defineFunction({
  type: "operatorname",
  names: ["\\operatorname"],
  props: {
    numArgs: 1
  },
  handler: (_ref, args) => {
    let parser = _ref.parser;
    const body = args[0];
    return {
      type: "operatorname",
      mode: parser.mode,
      body: ordargument(body)
    };
  },
  htmlBuilder: (group, options) => {
    if (group.body.length > 0) {
      const body = group.body.map(child => {
        // $FlowFixMe: Check if the node has a string `text` property.
        const childText = child.text;

        if (typeof childText === "string") {
          return {
            type: "textord",
            mode: child.mode,
            text: childText
          };
        } else {
          return child;
        }
      }); // Consolidate function names into symbol characters.

      const expression = buildExpression(body, options.withFont("mathrm"), true);

      for (let i = 0; i < expression.length; i++) {
        const child = expression[i];

        if (child instanceof SymbolNode) {
          // Per amsopn package,
          // change minus to hyphen and \ast to asterisk
          child.text = child.text.replace(/\u2212/, "-").replace(/\u2217/, "*");
        }
      }

      return buildCommon.makeSpan(["mop"], expression, options);
    } else {
      return buildCommon.makeSpan(["mop"], [], options);
    }
  },
  mathmlBuilder: (group, options) => {
    // The steps taken here are similar to the html version.
    let expression = buildExpression$1(group.body, options.withFont("mathrm")); // Is expression a string or has it something like a fraction?

    let isAllString = true; // default

    for (let i = 0; i < expression.length; i++) {
      const node = expression[i];

      if (node instanceof mathMLTree.SpaceNode) ; else if (node instanceof mathMLTree.MathNode) {
        switch (node.type) {
          case "mi":
          case "mn":
          case "ms":
          case "mspace":
          case "mtext":
            break;
          // Do nothing yet.

          case "mo":
            {
              const child = node.children[0];

              if (node.children.length === 1 && child instanceof mathMLTree.TextNode) {
                child.text = child.text.replace(/\u2212/, "-").replace(/\u2217/, "*");
              } else {
                isAllString = false;
              }

              break;
            }

          default:
            isAllString = false;
        }
      } else {
        isAllString = false;
      }
    }

    if (isAllString) {
      // Write a single TextNode instead of multiple nested tags.
      const word = expression.map(node => node.toText()).join("");
      expression = [new mathMLTree.TextNode(word)];
    }

    const identifier = new mathMLTree.MathNode("mi", expression);
    identifier.setAttribute("mathvariant", "normal"); // \u2061 is the same as &ApplyFunction;
    // ref: https://www.w3schools.com/charsets/ref_html_entities_a.asp

    const operator = new mathMLTree.MathNode("mo", [makeText("\u2061", "text")]);
    return mathMLTree.newDocumentFragment([identifier, operator]);
  }
});

defineFunctionBuilders({
  type: "ordgroup",

  htmlBuilder(group, options) {
    if (group.semisimple) {
      return buildCommon.makeFragment(buildExpression(group.body, options, false));
    }

    return buildCommon.makeSpan(["mord"], buildExpression(group.body, options, true), options);
  },

  mathmlBuilder(group, options) {
    return buildExpressionRow(group.body, options);
  }

});

defineFunction({
  type: "overline",
  names: ["\\overline"],
  props: {
    numArgs: 1
  },

  handler(_ref, args) {
    let parser = _ref.parser;
    const body = args[0];
    return {
      type: "overline",
      mode: parser.mode,
      body
    };
  },

  htmlBuilder(group, options) {
    // Overlines are handled in the TeXbook pg 443, Rule 9.
    // Build the inner group in the cramped style.
    const innerGroup = buildGroup(group.body, options.havingCrampedStyle()); // Create the line above the body

    const line = buildCommon.makeLineSpan("overline-line", options); // Generate the vlist, with the appropriate kerns

    const vlist = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: innerGroup
      }, {
        type: "kern",
        size: 3 * line.height
      }, {
        type: "elem",
        elem: line
      }, {
        type: "kern",
        size: line.height
      }]
    }, options);
    return buildCommon.makeSpan(["mord", "overline"], [vlist], options);
  },

  mathmlBuilder(group, options) {
    const operator = new mathMLTree.MathNode("mo", [new mathMLTree.TextNode("\u203e")]);
    operator.setAttribute("stretchy", "true");
    const node = new mathMLTree.MathNode("mover", [buildGroup$1(group.body, options), operator]);
    node.setAttribute("accent", "true");
    return node;
  }

});

defineFunction({
  type: "phantom",
  names: ["\\phantom"],
  props: {
    numArgs: 1,
    allowedInText: true
  },
  handler: (_ref, args) => {
    let parser = _ref.parser;
    const body = args[0];
    return {
      type: "phantom",
      mode: parser.mode,
      body: ordargument(body)
    };
  },
  htmlBuilder: (group, options) => {
    const elements = buildExpression(group.body, options.withPhantom(), false); // \phantom isn't supposed to affect the elements it contains.
    // See "color" for more details.

    return buildCommon.makeFragment(elements);
  },
  mathmlBuilder: (group, options) => {
    const inner = buildExpression$1(group.body, options);
    return new mathMLTree.MathNode("mphantom", inner);
  }
});
defineFunction({
  type: "hphantom",
  names: ["\\hphantom"],
  props: {
    numArgs: 1,
    allowedInText: true
  },
  handler: (_ref2, args) => {
    let parser = _ref2.parser;
    const body = args[0];
    return {
      type: "hphantom",
      mode: parser.mode,
      body
    };
  },
  htmlBuilder: (group, options) => {
    let node = buildCommon.makeSpan([], [buildGroup(group.body, options.withPhantom())]);
    node.height = 0;
    node.depth = 0;

    if (node.children) {
      for (let i = 0; i < node.children.length; i++) {
        node.children[i].height = 0;
        node.children[i].depth = 0;
      }
    } // See smash for comment re: use of makeVList


    node = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: node
      }]
    }, options); // For spacing, TeX treats \smash as a math group (same spacing as ord).

    return buildCommon.makeSpan(["mord"], [node], options);
  },
  mathmlBuilder: (group, options) => {
    const inner = buildExpression$1(ordargument(group.body), options);
    const node = new mathMLTree.MathNode("mphantom", inner);
    node.setAttribute("height", "0px");
    return node;
  }
});
defineFunction({
  type: "vphantom",
  names: ["\\vphantom"],
  props: {
    numArgs: 1,
    allowedInText: true
  },
  handler: (_ref3, args) => {
    let parser = _ref3.parser;
    const body = args[0];
    return {
      type: "vphantom",
      mode: parser.mode,
      body
    };
  },
  htmlBuilder: (group, options) => {
    const inner = buildCommon.makeSpan(["inner"], [buildGroup(group.body, options.withPhantom())]);
    const fix = buildCommon.makeSpan(["fix"], []);
    return buildCommon.makeSpan(["mord", "rlap"], [inner, fix], options);
  },
  mathmlBuilder: (group, options) => {
    const inner = buildExpression$1(ordargument(group.body), options);
    const node = new mathMLTree.MathNode("mphantom", inner);
    node.setAttribute("width", "0px");
    return node;
  }
});

function sizingGroup(value, options, baseOptions) {
  const inner = buildExpression(value, options, false);
  const multiplier = options.sizeMultiplier / baseOptions.sizeMultiplier; // Add size-resetting classes to the inner list and set maxFontSize
  // manually. Handle nested size changes.

  for (let i = 0; i < inner.length; i++) {
    const pos = inner[i].classes.indexOf("sizing");

    if (pos < 0) {
      Array.prototype.push.apply(inner[i].classes, options.sizingClasses(baseOptions));
    } else if (inner[i].classes[pos + 1] === "reset-size" + options.size) {
      // This is a nested size change: e.g., inner[i] is the "b" in
      // `\Huge a \small b`. Override the old size (the `reset-` class)
      // but not the new size.
      inner[i].classes[pos + 1] = "reset-size" + baseOptions.size;
    }

    inner[i].height *= multiplier;
    inner[i].depth *= multiplier;
  }

  return buildCommon.makeFragment(inner);
}
const sizeFuncs = ["\\tiny", "\\sixptsize", "\\scriptsize", "\\footnotesize", "\\small", "\\normalsize", "\\large", "\\Large", "\\LARGE", "\\huge", "\\Huge"];
const htmlBuilder$9 = (group, options) => {
  // Handle sizing operators like \Huge. Real TeX doesn't actually allow
  // these functions inside of math expressions, so we do some special
  // handling.
  const newOptions = options.havingSize(group.size);
  return sizingGroup(group.body, newOptions, options);
};
defineFunction({
  type: "sizing",
  names: sizeFuncs,
  props: {
    numArgs: 0,
    allowedInText: true
  },
  handler: (_ref, args) => {
    let breakOnTokenText = _ref.breakOnTokenText,
        funcName = _ref.funcName,
        parser = _ref.parser;
    const body = parser.parseExpression(false, breakOnTokenText);
    return {
      type: "sizing",
      mode: parser.mode,
      // Figure out what size to use based on the list of functions above
      size: sizeFuncs.indexOf(funcName) + 1,
      body
    };
  },
  htmlBuilder: htmlBuilder$9,
  mathmlBuilder: (group, options) => {
    const newOptions = options.havingSize(group.size);
    const inner = buildExpression$1(group.body, newOptions);
    const node = new mathMLTree.MathNode("mstyle", inner); // TODO(emily): This doesn't produce the correct size for nested size
    // changes, because we don't keep state of what style we're currently
    // in, so we can't reset the size to normal before changing it.  Now
    // that we're passing an options parameter we should be able to fix
    // this.

    node.setAttribute("mathsize", newOptions.sizeMultiplier + "em");
    return node;
  }
});

defineFunction({
  type: "raisebox",
  names: ["\\raisebox"],
  props: {
    numArgs: 2,
    argTypes: ["size", "text"],
    allowedInText: true
  },

  handler(_ref, args) {
    let parser = _ref.parser;
    const amount = assertNodeType(args[0], "size").value;
    const body = args[1];
    return {
      type: "raisebox",
      mode: parser.mode,
      dy: amount,
      body
    };
  },

  htmlBuilder(group, options) {
    const text = {
      type: "text",
      mode: group.mode,
      body: ordargument(group.body),
      font: "mathrm" // simulate \textrm

    };
    const sizedText = {
      type: "sizing",
      mode: group.mode,
      body: [text],
      size: 6 // simulate \normalsize

    };
    const body = htmlBuilder$9(sizedText, options);
    const dy = calculateSize(group.dy, options);
    return buildCommon.makeVList({
      positionType: "shift",
      positionData: -dy,
      children: [{
        type: "elem",
        elem: body
      }]
    }, options);
  },

  mathmlBuilder(group, options) {
    const node = new mathMLTree.MathNode("mpadded", [buildGroup$1(group.body, options)]);
    const dy = group.dy.number + group.dy.unit;
    node.setAttribute("voffset", dy);
    return node;
  }

});

defineFunction({
  type: "rule",
  names: ["\\rule"],
  props: {
    numArgs: 2,
    numOptionalArgs: 1,
    argTypes: ["size", "size", "size"]
  },

  handler(_ref, args, optArgs) {
    let parser = _ref.parser;
    const shift = optArgs[0];
    const width = assertNodeType(args[0], "size");
    const height = assertNodeType(args[1], "size");
    return {
      type: "rule",
      mode: parser.mode,
      shift: shift && assertNodeType(shift, "size").value,
      width: width.value,
      height: height.value
    };
  },

  htmlBuilder(group, options) {
    // Make an empty span for the rule
    const rule = buildCommon.makeSpan(["mord", "rule"], [], options); // Calculate the shift, width, and height of the rule, and account for units

    let shift = 0;

    if (group.shift) {
      shift = calculateSize(group.shift, options);
    }

    const width = calculateSize(group.width, options);
    const height = calculateSize(group.height, options); // Style the rule to the right size

    rule.style.borderRightWidth = width + "em";
    rule.style.borderTopWidth = height + "em";
    rule.style.bottom = shift + "em"; // Record the height and width

    rule.width = width;
    rule.height = height + shift;
    rule.depth = -shift; // Font size is the number large enough that the browser will
    // reserve at least `absHeight` space above the baseline.
    // The 1.125 factor was empirically determined

    rule.maxFontSize = height * 1.125 * options.sizeMultiplier;
    return rule;
  },

  mathmlBuilder(group, options) {
    // TODO(emily): Figure out if there's an actual way to draw black boxes
    // in MathML.
    const node = new mathMLTree.MathNode("mrow");
    return node;
  }

});

// smash, with optional [tb], as in AMS
defineFunction({
  type: "smash",
  names: ["\\smash"],
  props: {
    numArgs: 1,
    numOptionalArgs: 1,
    allowedInText: true
  },
  handler: (_ref, args, optArgs) => {
    let parser = _ref.parser;
    let smashHeight = false;
    let smashDepth = false;
    const tbArg = optArgs[0] && assertNodeType(optArgs[0], "ordgroup");

    if (tbArg) {
      // Optional [tb] argument is engaged.
      // ref: amsmath: \renewcommand{\smash}[1][tb]{%
      //               def\mb@t{\ht}\def\mb@b{\dp}\def\mb@tb{\ht\z@\z@\dp}%
      let letter = "";

      for (let i = 0; i < tbArg.body.length; ++i) {
        const node = tbArg.body[i]; // $FlowFixMe: Not every node type has a `text` property.

        letter = node.text;

        if (letter === "t") {
          smashHeight = true;
        } else if (letter === "b") {
          smashDepth = true;
        } else {
          smashHeight = false;
          smashDepth = false;
          break;
        }
      }
    } else {
      smashHeight = true;
      smashDepth = true;
    }

    const body = args[0];
    return {
      type: "smash",
      mode: parser.mode,
      body,
      smashHeight,
      smashDepth
    };
  },
  htmlBuilder: (group, options) => {
    const node = buildCommon.makeSpan([], [buildGroup(group.body, options)]);

    if (!group.smashHeight && !group.smashDepth) {
      return node;
    }

    if (group.smashHeight) {
      node.height = 0; // In order to influence makeVList, we have to reset the children.

      if (node.children) {
        for (let i = 0; i < node.children.length; i++) {
          node.children[i].height = 0;
        }
      }
    }

    if (group.smashDepth) {
      node.depth = 0;

      if (node.children) {
        for (let i = 0; i < node.children.length; i++) {
          node.children[i].depth = 0;
        }
      }
    } // At this point, we've reset the TeX-like height and depth values.
    // But the span still has an HTML line height.
    // makeVList applies "display: table-cell", which prevents the browser
    // from acting on that line height. So we'll call makeVList now.


    const smashedNode = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: node
      }]
    }, options); // For spacing, TeX treats \hphantom as a math group (same spacing as ord).

    return buildCommon.makeSpan(["mord"], [smashedNode], options);
  },
  mathmlBuilder: (group, options) => {
    const node = new mathMLTree.MathNode("mpadded", [buildGroup$1(group.body, options)]);

    if (group.smashHeight) {
      node.setAttribute("height", "0px");
    }

    if (group.smashDepth) {
      node.setAttribute("depth", "0px");
    }

    return node;
  }
});

defineFunction({
  type: "sqrt",
  names: ["\\sqrt"],
  props: {
    numArgs: 1,
    numOptionalArgs: 1
  },

  handler(_ref, args, optArgs) {
    let parser = _ref.parser;
    const index = optArgs[0];
    const body = args[0];
    return {
      type: "sqrt",
      mode: parser.mode,
      body,
      index
    };
  },

  htmlBuilder(group, options) {
    // Square roots are handled in the TeXbook pg. 443, Rule 11.
    // First, we do the same steps as in overline to build the inner group
    // and line
    let inner = buildGroup(group.body, options.havingCrampedStyle());

    if (inner.height === 0) {
      // Render a small surd.
      inner.height = options.fontMetrics().xHeight;
    } // Some groups can return document fragments.  Handle those by wrapping
    // them in a span.


    inner = buildCommon.wrapFragment(inner, options); // Calculate the minimum size for the \surd delimiter

    const metrics = options.fontMetrics();
    const theta = metrics.defaultRuleThickness;
    let phi = theta;

    if (options.style.id < Style$1.TEXT.id) {
      phi = options.fontMetrics().xHeight;
    } // Calculate the clearance between the body and line


    let lineClearance = theta + phi / 4;
    const minDelimiterHeight = inner.height + inner.depth + lineClearance + theta; // Create a sqrt SVG of the required minimum size

    const _delimiter$sqrtImage = delimiter.sqrtImage(minDelimiterHeight, options),
          img = _delimiter$sqrtImage.span,
          ruleWidth = _delimiter$sqrtImage.ruleWidth,
          advanceWidth = _delimiter$sqrtImage.advanceWidth;

    const delimDepth = img.height - ruleWidth; // Adjust the clearance based on the delimiter size

    if (delimDepth > inner.height + inner.depth + lineClearance) {
      lineClearance = (lineClearance + delimDepth - inner.height - inner.depth) / 2;
    } // Shift the sqrt image


    const imgShift = img.height - inner.height - lineClearance - ruleWidth;
    inner.style.paddingLeft = advanceWidth + "em"; // Overlay the image and the argument.

    const body = buildCommon.makeVList({
      positionType: "firstBaseline",
      children: [{
        type: "elem",
        elem: inner,
        wrapperClasses: ["svg-align"]
      }, {
        type: "kern",
        size: -(inner.height + imgShift)
      }, {
        type: "elem",
        elem: img
      }, {
        type: "kern",
        size: ruleWidth
      }]
    }, options);

    if (!group.index) {
      return buildCommon.makeSpan(["mord", "sqrt"], [body], options);
    } else {
      // Handle the optional root index
      // The index is always in scriptscript style
      const newOptions = options.havingStyle(Style$1.SCRIPTSCRIPT);
      const rootm = buildGroup(group.index, newOptions, options); // The amount the index is shifted by. This is taken from the TeX
      // source, in the definition of `\r@@t`.

      const toShift = 0.6 * (body.height - body.depth); // Build a VList with the superscript shifted up correctly

      const rootVList = buildCommon.makeVList({
        positionType: "shift",
        positionData: -toShift,
        children: [{
          type: "elem",
          elem: rootm
        }]
      }, options); // Add a class surrounding it so we can add on the appropriate
      // kerning

      const rootVListWrap = buildCommon.makeSpan(["root"], [rootVList]);
      return buildCommon.makeSpan(["mord", "sqrt"], [rootVListWrap, body], options);
    }
  },

  mathmlBuilder(group, options) {
    const body = group.body,
          index = group.index;
    return index ? new mathMLTree.MathNode("mroot", [buildGroup$1(body, options), buildGroup$1(index, options)]) : new mathMLTree.MathNode("msqrt", [buildGroup$1(body, options)]);
  }

});

const styleMap$1 = {
  "display": Style$1.DISPLAY,
  "text": Style$1.TEXT,
  "script": Style$1.SCRIPT,
  "scriptscript": Style$1.SCRIPTSCRIPT
};
defineFunction({
  type: "styling",
  names: ["\\displaystyle", "\\textstyle", "\\scriptstyle", "\\scriptscriptstyle"],
  props: {
    numArgs: 0,
    allowedInText: true
  },

  handler(_ref, args) {
    let breakOnTokenText = _ref.breakOnTokenText,
        funcName = _ref.funcName,
        parser = _ref.parser;
    // parse out the implicit body
    const body = parser.parseExpression(true, breakOnTokenText); // TODO: Refactor to avoid duplicating styleMap in multiple places (e.g.
    // here and in buildHTML and de-dupe the enumeration of all the styles).
    // $FlowFixMe: The names above exactly match the styles.

    const style = funcName.slice(1, funcName.length - 5);
    return {
      type: "styling",
      mode: parser.mode,
      // Figure out what style to use by pulling out the style from
      // the function name
      style,
      body
    };
  },

  htmlBuilder(group, options) {
    // Style changes are handled in the TeXbook on pg. 442, Rule 3.
    const newStyle = styleMap$1[group.style];
    const newOptions = options.havingStyle(newStyle).withFont('');
    return sizingGroup(group.body, newOptions, options);
  },

  mathmlBuilder(group, options) {
    // Figure out what style we're changing to.
    // TODO(kevinb): dedupe this with buildHTML.js
    // This will be easier of handling of styling nodes is in the same file.
    const styleMap = {
      "display": Style$1.DISPLAY,
      "text": Style$1.TEXT,
      "script": Style$1.SCRIPT,
      "scriptscript": Style$1.SCRIPTSCRIPT
    };
    const newStyle = styleMap[group.style];
    const newOptions = options.havingStyle(newStyle);
    const inner = buildExpression$1(group.body, newOptions);
    const node = new mathMLTree.MathNode("mstyle", inner);
    const styleAttributes = {
      "display": ["0", "true"],
      "text": ["0", "false"],
      "script": ["1", "false"],
      "scriptscript": ["2", "false"]
    };
    const attr = styleAttributes[group.style];
    node.setAttribute("scriptlevel", attr[0]);
    node.setAttribute("displaystyle", attr[1]);
    return node;
  }

});

/**
 * Sometimes, groups perform special rules when they have superscripts or
 * subscripts attached to them. This function lets the `supsub` group know that
 * Sometimes, groups perform special rules when they have superscripts or
 * its inner element should handle the superscripts and subscripts instead of
 * handling them itself.
 */
const htmlBuilderDelegate = function htmlBuilderDelegate(group, options) {
  const base = group.base;

  if (!base) {
    return null;
  } else if (base.type === "op") {
    // Operators handle supsubs differently when they have limits
    // (e.g. `\displaystyle\sum_2^3`)
    const delegate = base.limits && (options.style.size === Style$1.DISPLAY.size || base.alwaysHandleSupSub);
    return delegate ? htmlBuilder$8 : null;
  } else if (base.type === "accent") {
    return utils.isCharacterBox(base.base) ? htmlBuilder : null;
  } else if (base.type === "horizBrace") {
    const isSup = !group.sub;
    return isSup === base.isOver ? htmlBuilder$7 : null;
  } else {
    return null;
  }
}; // Super scripts and subscripts, whose precise placement can depend on other
// functions that precede them.


defineFunctionBuilders({
  type: "supsub",

  htmlBuilder(group, options) {
    // Superscript and subscripts are handled in the TeXbook on page
    // 445-446, rules 18(a-f).
    // Here is where we defer to the inner group if it should handle
    // superscripts and subscripts itself.
    const builderDelegate = htmlBuilderDelegate(group, options);

    if (builderDelegate) {
      return builderDelegate(group, options);
    }

    const valueBase = group.base,
          valueSup = group.sup,
          valueSub = group.sub;
    const base = buildGroup(valueBase, options);
    let supm;
    let subm;
    const metrics = options.fontMetrics(); // Rule 18a

    let supShift = 0;
    let subShift = 0;
    const isCharacterBox = valueBase && utils.isCharacterBox(valueBase);

    if (valueSup) {
      const newOptions = options.havingStyle(options.style.sup());
      supm = buildGroup(valueSup, newOptions, options);

      if (!isCharacterBox) {
        supShift = base.height - newOptions.fontMetrics().supDrop * newOptions.sizeMultiplier / options.sizeMultiplier;
      }
    }

    if (valueSub) {
      const newOptions = options.havingStyle(options.style.sub());
      subm = buildGroup(valueSub, newOptions, options);

      if (!isCharacterBox) {
        subShift = base.depth + newOptions.fontMetrics().subDrop * newOptions.sizeMultiplier / options.sizeMultiplier;
      }
    } // Rule 18c


    let minSupShift;

    if (options.style === Style$1.DISPLAY) {
      minSupShift = metrics.sup1;
    } else if (options.style.cramped) {
      minSupShift = metrics.sup3;
    } else {
      minSupShift = metrics.sup2;
    } // scriptspace is a font-size-independent size, so scale it
    // appropriately for use as the marginRight.


    const multiplier = options.sizeMultiplier;
    const marginRight = 0.5 / metrics.ptPerEm / multiplier + "em";
    let marginLeft = null;

    if (subm) {
      // Subscripts shouldn't be shifted by the base's italic correction.
      // Account for that by shifting the subscript back the appropriate
      // amount. Note we only do this when the base is a single symbol.
      const isOiint = group.base && group.base.type === "op" && group.base.name && (group.base.name === "\\oiint" || group.base.name === "\\oiiint");

      if (base instanceof SymbolNode || isOiint) {
        // $FlowFixMe
        marginLeft = -base.italic + "em";
      }
    }

    let supsub;

    if (supm && subm) {
      supShift = Math.max(supShift, minSupShift, supm.depth + 0.25 * metrics.xHeight);
      subShift = Math.max(subShift, metrics.sub2);
      const ruleWidth = metrics.defaultRuleThickness; // Rule 18e

      const maxWidth = 4 * ruleWidth;

      if (supShift - supm.depth - (subm.height - subShift) < maxWidth) {
        subShift = maxWidth - (supShift - supm.depth) + subm.height;
        const psi = 0.8 * metrics.xHeight - (supShift - supm.depth);

        if (psi > 0) {
          supShift += psi;
          subShift -= psi;
        }
      }

      const vlistElem = [{
        type: "elem",
        elem: subm,
        shift: subShift,
        marginRight,
        marginLeft
      }, {
        type: "elem",
        elem: supm,
        shift: -supShift,
        marginRight
      }];
      supsub = buildCommon.makeVList({
        positionType: "individualShift",
        children: vlistElem
      }, options);
    } else if (subm) {
      // Rule 18b
      subShift = Math.max(subShift, metrics.sub1, subm.height - 0.8 * metrics.xHeight);
      const vlistElem = [{
        type: "elem",
        elem: subm,
        marginLeft,
        marginRight
      }];
      supsub = buildCommon.makeVList({
        positionType: "shift",
        positionData: subShift,
        children: vlistElem
      }, options);
    } else if (supm) {
      // Rule 18c, d
      supShift = Math.max(supShift, minSupShift, supm.depth + 0.25 * metrics.xHeight);
      supsub = buildCommon.makeVList({
        positionType: "shift",
        positionData: -supShift,
        children: [{
          type: "elem",
          elem: supm,
          marginRight
        }]
      }, options);
    } else {
      throw new Error("supsub must have either sup or sub.");
    } // Wrap the supsub vlist in a span.msupsub to reset text-align.


    const mclass = getTypeOfDomTree(base, "right") || "mord";
    return buildCommon.makeSpan([mclass], [base, buildCommon.makeSpan(["msupsub"], [supsub])], options);
  },

  mathmlBuilder(group, options) {
    // Is the inner group a relevant horizonal brace?
    let isBrace = false;
    let isOver;
    let isSup;
    const horizBrace = checkNodeType(group.base, "horizBrace");

    if (horizBrace) {
      isSup = !!group.sup;

      if (isSup === horizBrace.isOver) {
        isBrace = true;
        isOver = horizBrace.isOver;
      }
    }

    const children = [buildGroup$1(group.base, options)];

    if (group.sub) {
      children.push(buildGroup$1(group.sub, options));
    }

    if (group.sup) {
      children.push(buildGroup$1(group.sup, options));
    }

    let nodeType;

    if (isBrace) {
      nodeType = isOver ? "mover" : "munder";
    } else if (!group.sub) {
      const base = group.base;

      if (base && base.type === "op" && base.limits && options.style === Style$1.DISPLAY) {
        nodeType = "mover";
      } else {
        nodeType = "msup";
      }
    } else if (!group.sup) {
      const base = group.base;

      if (base && base.type === "op" && base.limits && options.style === Style$1.DISPLAY) {
        nodeType = "munder";
      } else {
        nodeType = "msub";
      }
    } else {
      const base = group.base;

      if (base && base.type === "op" && base.limits && options.style === Style$1.DISPLAY) {
        nodeType = "munderover";
      } else {
        nodeType = "msubsup";
      }
    }

    const node = new mathMLTree.MathNode(nodeType, children);
    return node;
  }

});

defineFunctionBuilders({
  type: "atom",

  htmlBuilder(group, options) {
    return buildCommon.mathsym(group.text, group.mode, options, ["m" + group.family]);
  },

  mathmlBuilder(group, options) {
    const node = new mathMLTree.MathNode("mo", [makeText(group.text, group.mode)]);

    if (group.family === "bin") {
      const variant = getVariant(group, options);

      if (variant === "bold-italic") {
        node.setAttribute("mathvariant", variant);
      }
    } else if (group.family === "punct") {
      node.setAttribute("separator", "true");
    }

    return node;
  }

});

// "mathord" and "textord" ParseNodes created in Parser.js from symbol Groups in
const defaultVariant = {
  "mi": "italic",
  "mn": "normal",
  "mtext": "normal"
};
defineFunctionBuilders({
  type: "mathord",

  htmlBuilder(group, options) {
    return buildCommon.makeOrd(group, options, "mathord");
  },

  mathmlBuilder(group, options) {
    const node = new mathMLTree.MathNode("mi", [makeText(group.text, group.mode, options)]);
    const variant = getVariant(group, options) || "italic";

    if (variant !== defaultVariant[node.type]) {
      node.setAttribute("mathvariant", variant);
    }

    return node;
  }

});
defineFunctionBuilders({
  type: "textord",

  htmlBuilder(group, options) {
    return buildCommon.makeOrd(group, options, "textord");
  },

  mathmlBuilder(group, options) {
    const text = makeText(group.text, group.mode, options);
    const variant = getVariant(group, options) || "normal";
    let node;

    if (group.mode === 'text') {
      node = new mathMLTree.MathNode("mtext", [text]);
    } else if (/[0-9]/.test(group.text)) {
      // TODO(kevinb) merge adjacent <mn> nodes
      // do it as a post processing step
      node = new mathMLTree.MathNode("mn", [text]);
    } else if (group.text === "\\prime") {
      node = new mathMLTree.MathNode("mo", [text]);
    } else {
      node = new mathMLTree.MathNode("mi", [text]);
    }

    if (variant !== defaultVariant[node.type]) {
      node.setAttribute("mathvariant", variant);
    }

    return node;
  }

});

const cssSpace = {
  "\\nobreak": "nobreak",
  "\\allowbreak": "allowbreak"
}; // A lookup table to determine whether a spacing function/symbol should be
// treated like a regular space character.  If a symbol or command is a key
// in this table, then it should be a regular space character.  Furthermore,
// the associated value may have a `className` specifying an extra CSS class
// to add to the created `span`.

const regularSpace = {
  " ": {},
  "\\ ": {},
  "~": {
    className: "nobreak"
  },
  "\\space": {},
  "\\nobreakspace": {
    className: "nobreak"
  }
}; // ParseNode<"spacing"> created in Parser.js from the "spacing" symbol Groups in
// src/symbols.js.

defineFunctionBuilders({
  type: "spacing",

  htmlBuilder(group, options) {
    if (regularSpace.hasOwnProperty(group.text)) {
      const className = regularSpace[group.text].className || ""; // Spaces are generated by adding an actual space. Each of these
      // things has an entry in the symbols table, so these will be turned
      // into appropriate outputs.

      if (group.mode === "text") {
        const ord = buildCommon.makeOrd(group, options, "textord");
        ord.classes.push(className);
        return ord;
      } else {
        return buildCommon.makeSpan(["mspace", className], [buildCommon.mathsym(group.text, group.mode, options)], options);
      }
    } else if (cssSpace.hasOwnProperty(group.text)) {
      // Spaces based on just a CSS class.
      return buildCommon.makeSpan(["mspace", cssSpace[group.text]], [], options);
    } else {
      throw new ParseError(`Unknown type of space "${group.text}"`);
    }
  },

  mathmlBuilder(group, options) {
    let node;

    if (regularSpace.hasOwnProperty(group.text)) {
      node = new mathMLTree.MathNode("mtext", [new mathMLTree.TextNode("\u00a0")]);
    } else if (cssSpace.hasOwnProperty(group.text)) {
      // CSS-based MathML spaces (\nobreak, \allowbreak) are ignored
      return new mathMLTree.MathNode("mspace");
    } else {
      throw new ParseError(`Unknown type of space "${group.text}"`);
    }

    return node;
  }

});

defineFunctionBuilders({
  type: "tag",

  mathmlBuilder(group, options) {
    const table = new mathMLTree.MathNode("mtable", [new mathMLTree.MathNode("mlabeledtr", [new mathMLTree.MathNode("mtd", [buildExpressionRow(group.tag, options)]), new mathMLTree.MathNode("mtd", [buildExpressionRow(group.body, options)])])]);
    table.setAttribute("side", "right");
    return table;
  }

});

const textFontFamilies = {
  "\\text": undefined,
  "\\textrm": "textrm",
  "\\textsf": "textsf",
  "\\texttt": "texttt",
  "\\textnormal": "textrm"
};
const textFontWeights = {
  "\\textbf": "textbf"
};
const textFontShapes = {
  "\\textit": "textit"
};

const optionsWithFont = (group, options) => {
  const font = group.font; // Checks if the argument is a font family or a font style.

  if (!font) {
    return options;
  } else if (textFontFamilies[font]) {
    return options.withTextFontFamily(textFontFamilies[font]);
  } else if (textFontWeights[font]) {
    return options.withTextFontWeight(textFontWeights[font]);
  } else {
    return options.withTextFontShape(textFontShapes[font]);
  }
};

defineFunction({
  type: "text",
  names: [// Font families
  "\\text", "\\textrm", "\\textsf", "\\texttt", "\\textnormal", // Font weights
  "\\textbf", // Font Shapes
  "\\textit"],
  props: {
    numArgs: 1,
    argTypes: ["text"],
    greediness: 2,
    allowedInText: true,
    consumeMode: "text"
  },

  handler(_ref, args) {
    let parser = _ref.parser,
        funcName = _ref.funcName;
    const body = args[0];
    return {
      type: "text",
      mode: parser.mode,
      body: ordargument(body),
      font: funcName
    };
  },

  htmlBuilder(group, options) {
    const newOptions = optionsWithFont(group, options);
    const inner = buildExpression(group.body, newOptions, true);
    return buildCommon.makeSpan(["mord", "text"], buildCommon.tryCombineChars(inner), newOptions);
  },

  mathmlBuilder(group, options) {
    const newOptions = optionsWithFont(group, options);
    return buildExpressionRow(group.body, newOptions);
  }

});

defineFunction({
  type: "underline",
  names: ["\\underline"],
  props: {
    numArgs: 1,
    allowedInText: true
  },

  handler(_ref, args) {
    let parser = _ref.parser;
    return {
      type: "underline",
      mode: parser.mode,
      body: args[0]
    };
  },

  htmlBuilder(group, options) {
    // Underlines are handled in the TeXbook pg 443, Rule 10.
    // Build the inner group.
    const innerGroup = buildGroup(group.body, options); // Create the line to go below the body

    const line = buildCommon.makeLineSpan("underline-line", options); // Generate the vlist, with the appropriate kerns

    const vlist = buildCommon.makeVList({
      positionType: "top",
      positionData: innerGroup.height,
      children: [{
        type: "kern",
        size: line.height
      }, {
        type: "elem",
        elem: line
      }, {
        type: "kern",
        size: 3 * line.height
      }, {
        type: "elem",
        elem: innerGroup
      }]
    }, options);
    return buildCommon.makeSpan(["mord", "underline"], [vlist], options);
  },

  mathmlBuilder(group, options) {
    const operator = new mathMLTree.MathNode("mo", [new mathMLTree.TextNode("\u203e")]);
    operator.setAttribute("stretchy", "true");
    const node = new mathMLTree.MathNode("munder", [buildGroup$1(group.body, options), operator]);
    node.setAttribute("accentunder", "true");
    return node;
  }

});

defineFunction({
  type: "verb",
  names: ["\\verb"],
  props: {
    numArgs: 0,
    allowedInText: true
  },

  handler(context, args, optArgs) {
    // \verb and \verb* are dealt with directly in Parser.js.
    // If we end up here, it's because of a failure to match the two delimiters
    // in the regex in Lexer.js.  LaTeX raises the following error when \verb is
    // terminated by end of line (or file).
    throw new ParseError("\\verb ended by end of line instead of matching delimiter");
  },

  htmlBuilder(group, options) {
    const text = makeVerb(group);
    const body = []; // \verb enters text mode and therefore is sized like \textstyle

    const newOptions = options.havingStyle(options.style.text());

    for (let i = 0; i < text.length; i++) {
      let c = text[i];

      if (c === '~') {
        c = '\\textasciitilde';
      }

      body.push(buildCommon.makeSymbol(c, "Typewriter-Regular", group.mode, newOptions, ["mord", "texttt"]));
    }

    return buildCommon.makeSpan(["mord", "text"].concat(newOptions.sizingClasses(options)), buildCommon.tryCombineChars(body), newOptions);
  },

  mathmlBuilder(group, options) {
    const text = new mathMLTree.TextNode(makeVerb(group));
    const node = new mathMLTree.MathNode("mtext", [text]);
    node.setAttribute("mathvariant", "monospace");
    return node;
  }

});
/**
 * Converts verb group into body string.
 *
 * \verb* replaces each space with an open box \u2423
 * \verb replaces each space with a no-break space \xA0
 */

const makeVerb = group => group.body.replace(/ /g, group.star ? '\u2423' : '\xA0');

/** Include this to ensure that all functions are defined. */
const functions = _functions;

/**
 * The Lexer class handles tokenizing the input in various ways. Since our
 * parser expects us to be able to backtrack, the lexer allows lexing from any
 * given starting point.
 *
 * Its main exposed function is the `lex` function, which takes a position to
 * lex from and a type of token to lex. It defers to the appropriate `_innerLex`
 * function.
 *
 * The various `_innerLex` functions perform the actual lexing of different
 * kinds.
 */

/* The following tokenRegex
 * - matches typical whitespace (but not NBSP etc.) using its first group
 * - does not match any control character \x00-\x1f except whitespace
 * - does not match a bare backslash
 * - matches any ASCII character except those just mentioned
 * - does not match the BMP private use area \uE000-\uF8FF
 * - does not match bare surrogate code units
 * - matches any BMP character except for those just described
 * - matches any valid Unicode surrogate pair
 * - matches a backslash followed by one or more letters
 * - matches a backslash followed by any BMP character, including newline
 * Just because the Lexer matches something doesn't mean it's valid input:
 * If there is no matching function or symbol definition, the Parser will
 * still reject the input.
 */
const spaceRegexString = "[ \r\n\t]";
const controlWordRegexString = "\\\\[a-zA-Z@]+";
const controlSymbolRegexString = "\\\\[^\uD800-\uDFFF]";
const controlWordWhitespaceRegexString = `${controlWordRegexString}${spaceRegexString}*`;
const controlWordWhitespaceRegex = new RegExp(`^(${controlWordRegexString})${spaceRegexString}*$`);
const combiningDiacriticalMarkString = "[\u0300-\u036f]";
const combiningDiacriticalMarksEndRegex = new RegExp(`${combiningDiacriticalMarkString}+$`);
const tokenRegexString = `(${spaceRegexString}+)|` + // whitespace
"([!-\\[\\]-\u2027\u202A-\uD7FF\uF900-\uFFFF]" + // single codepoint
`${combiningDiacriticalMarkString}*` + // ...plus accents
"|[\uD800-\uDBFF][\uDC00-\uDFFF]" + // surrogate pair
`${combiningDiacriticalMarkString}*` + // ...plus accents
"|\\\\verb\\*([^]).*?\\3" + // \verb*
"|\\\\verb([^*a-zA-Z]).*?\\4" + // \verb unstarred
`|${controlWordWhitespaceRegexString}` + // \macroName + spaces
`|${controlSymbolRegexString})`; // \\, \', etc.

/** Main Lexer class */

class Lexer {
  // category codes, only supports comment characters (14) for now
  constructor(input, settings) {
    this.input = void 0;
    this.settings = void 0;
    this.tokenRegex = void 0;
    this.catcodes = void 0;
    // Separate accents from characters
    this.input = input;
    this.settings = settings;
    this.tokenRegex = new RegExp(tokenRegexString, 'g');
    this.catcodes = {
      "%": 14 // comment character

    };
  }

  setCatcode(char, code) {
    this.catcodes[char] = code;
  }
  /**
   * This function lexes a single token.
   */


  lex() {
    const input = this.input;
    const pos = this.tokenRegex.lastIndex;

    if (pos === input.length) {
      return new Token("EOF", new SourceLocation(this, pos, pos));
    }

    const match = this.tokenRegex.exec(input);

    if (match === null || match.index !== pos) {
      throw new ParseError(`Unexpected character: '${input[pos]}'`, new Token(input[pos], new SourceLocation(this, pos, pos + 1)));
    }

    let text = match[2] || " ";

    if (this.catcodes[text] === 14) {
      // comment character
      const nlIndex = input.indexOf('\n', this.tokenRegex.lastIndex);

      if (nlIndex === -1) {
        this.tokenRegex.lastIndex = input.length; // EOF

        this.settings.reportNonstrict("commentAtEnd", "% comment has no terminating newline; LaTeX would " + "fail because of commenting the end of math mode (e.g. $)");
      } else {
        this.tokenRegex.lastIndex = nlIndex + 1;
      }

      return this.lex();
    } // Trim any trailing whitespace from control word match


    const controlMatch = text.match(controlWordWhitespaceRegex);

    if (controlMatch) {
      text = controlMatch[1];
    }

    return new Token(text, new SourceLocation(this, pos, this.tokenRegex.lastIndex));
  }

}

/**
 * A `Namespace` refers to a space of nameable things like macros or lengths,
 * which can be `set` either globally or local to a nested group, using an
 * undo stack similar to how TeX implements this functionality.
 * Performance-wise, `get` and local `set` take constant time, while global
 * `set` takes time proportional to the depth of group nesting.
 */
class Namespace {
  /**
   * Both arguments are optional.  The first argument is an object of
   * built-in mappings which never change.  The second argument is an object
   * of initial (global-level) mappings, which will constantly change
   * according to any global/top-level `set`s done.
   */
  constructor(builtins, globalMacros) {
    if (builtins === void 0) {
      builtins = {};
    }

    if (globalMacros === void 0) {
      globalMacros = {};
    }

    this.current = void 0;
    this.builtins = void 0;
    this.undefStack = void 0;
    this.current = globalMacros;
    this.builtins = builtins;
    this.undefStack = [];
  }
  /**
   * Start a new nested group, affecting future local `set`s.
   */


  beginGroup() {
    this.undefStack.push({});
  }
  /**
   * End current nested group, restoring values before the group began.
   */


  endGroup() {
    if (this.undefStack.length === 0) {
      throw new ParseError("Unbalanced namespace destruction: attempt " + "to pop global namespace; please report this as a bug");
    }

    const undefs = this.undefStack.pop();

    for (const undef in undefs) {
      if (undefs.hasOwnProperty(undef)) {
        if (undefs[undef] === undefined) {
          delete this.current[undef];
        } else {
          this.current[undef] = undefs[undef];
        }
      }
    }
  }
  /**
   * Detect whether `name` has a definition.  Equivalent to
   * `get(name) != null`.
   */


  has(name) {
    return this.current.hasOwnProperty(name) || this.builtins.hasOwnProperty(name);
  }
  /**
   * Get the current value of a name, or `undefined` if there is no value.
   *
   * Note: Do not use `if (namespace.get(...))` to detect whether a macro
   * is defined, as the definition may be the empty string which evaluates
   * to `false` in JavaScript.  Use `if (namespace.get(...) != null)` or
   * `if (namespace.has(...))`.
   */


  get(name) {
    if (this.current.hasOwnProperty(name)) {
      return this.current[name];
    } else {
      return this.builtins[name];
    }
  }
  /**
   * Set the current value of a name, and optionally set it globally too.
   * Local set() sets the current value and (when appropriate) adds an undo
   * operation to the undo stack.  Global set() may change the undo
   * operation at every level, so takes time linear in their number.
   */


  set(name, value, global) {
    if (global === void 0) {
      global = false;
    }

    if (global) {
      // Global set is equivalent to setting in all groups.  Simulate this
      // by destroying any undos currently scheduled for this name,
      // and adding an undo with the *new* value (in case it later gets
      // locally reset within this environment).
      for (let i = 0; i < this.undefStack.length; i++) {
        delete this.undefStack[i][name];
      }

      if (this.undefStack.length > 0) {
        this.undefStack[this.undefStack.length - 1][name] = value;
      }
    } else {
      // Undo this set at end of this group (possibly to `undefined`),
      // unless an undo is already in place, in which case that older
      // value is the correct one.
      const top = this.undefStack[this.undefStack.length - 1];

      if (top && !top.hasOwnProperty(name)) {
        top[name] = this.current[name];
      }
    }

    this.current[name] = value;
  }

}

/**
 * Predefined macros for KaTeX.
 * This can be used to define some commands in terms of others.
 */
const builtinMacros = {};

function defineMacro(name, body) {
  builtinMacros[name] = body;
} //////////////////////////////////////////////////////////////////////
// macro tools
// LaTeX's \@firstoftwo{#1}{#2} expands to #1, skipping #2
// TeX source: \long\def\@firstoftwo#1#2{#1}

defineMacro("\\@firstoftwo", function (context) {
  const args = context.consumeArgs(2);
  return {
    tokens: args[0],
    numArgs: 0
  };
}); // LaTeX's \@secondoftwo{#1}{#2} expands to #2, skipping #1
// TeX source: \long\def\@secondoftwo#1#2{#2}

defineMacro("\\@secondoftwo", function (context) {
  const args = context.consumeArgs(2);
  return {
    tokens: args[1],
    numArgs: 0
  };
}); // LaTeX's \@ifnextchar{#1}{#2}{#3} looks ahead to the next (unexpanded)
// symbol.  If it matches #1, then the macro expands to #2; otherwise, #3.
// Note, however, that it does not consume the next symbol in either case.

defineMacro("\\@ifnextchar", function (context) {
  const args = context.consumeArgs(3); // symbol, if, else

  const nextToken = context.future();

  if (args[0].length === 1 && args[0][0].text === nextToken.text) {
    return {
      tokens: args[1],
      numArgs: 0
    };
  } else {
    return {
      tokens: args[2],
      numArgs: 0
    };
  }
}); // LaTeX's \@ifstar{#1}{#2} looks ahead to the next (unexpanded) symbol.
// If it is `*`, then it consumes the symbol, and the macro expands to #1;
// otherwise, the macro expands to #2 (without consuming the symbol).
// TeX source: \def\@ifstar#1{\@ifnextchar *{\@firstoftwo{#1}}}

defineMacro("\\@ifstar", "\\@ifnextchar *{\\@firstoftwo{#1}}"); // LaTeX's \TextOrMath{#1}{#2} expands to #1 in text mode, #2 in math mode

defineMacro("\\TextOrMath", function (context) {
  const args = context.consumeArgs(2);

  if (context.mode === 'text') {
    return {
      tokens: args[0],
      numArgs: 0
    };
  } else {
    return {
      tokens: args[1],
      numArgs: 0
    };
  }
}); // Lookup table for parsing numbers in base 8 through 16

const digitToNumber = {
  "0": 0,
  "1": 1,
  "2": 2,
  "3": 3,
  "4": 4,
  "5": 5,
  "6": 6,
  "7": 7,
  "8": 8,
  "9": 9,
  "a": 10,
  "A": 10,
  "b": 11,
  "B": 11,
  "c": 12,
  "C": 12,
  "d": 13,
  "D": 13,
  "e": 14,
  "E": 14,
  "f": 15,
  "F": 15
}; // TeX \char makes a literal character (catcode 12) using the following forms:
// (see The TeXBook, p. 43)
//   \char123  -- decimal
//   \char'123 -- octal
//   \char"123 -- hex
//   \char`x   -- character that can be written (i.e. isn't active)
//   \char`\x  -- character that cannot be written (e.g. %)
// These all refer to characters from the font, so we turn them into special
// calls to a function \@char dealt with in the Parser.

defineMacro("\\char", function (context) {
  let token = context.popToken();
  let base;
  let number = '';

  if (token.text === "'") {
    base = 8;
    token = context.popToken();
  } else if (token.text === '"') {
    base = 16;
    token = context.popToken();
  } else if (token.text === "`") {
    token = context.popToken();

    if (token.text[0] === "\\") {
      number = token.text.charCodeAt(1);
    } else if (token.text === "EOF") {
      throw new ParseError("\\char` missing argument");
    } else {
      number = token.text.charCodeAt(0);
    }
  } else {
    base = 10;
  }

  if (base) {
    // Parse a number in the given base, starting with first `token`.
    number = digitToNumber[token.text];

    if (number == null || number >= base) {
      throw new ParseError(`Invalid base-${base} digit ${token.text}`);
    }

    let digit;

    while ((digit = digitToNumber[context.future().text]) != null && digit < base) {
      number *= base;
      number += digit;
      context.popToken();
    }
  }

  return `\\@char{${number}}`;
}); // Basic support for macro definitions:
//     \def\macro{expansion}
//     \def\macro#1{expansion}
//     \def\macro#1#2{expansion}
//     \def\macro#1#2#3#4#5#6#7#8#9{expansion}
// Also the \gdef and \global\def equivalents

const def = (context, global) => {
  let arg = context.consumeArgs(1)[0];

  if (arg.length !== 1) {
    throw new ParseError("\\gdef's first argument must be a macro name");
  }

  const name = arg[0].text; // Count argument specifiers, and check they are in the order #1 #2 ...

  let numArgs = 0;
  arg = context.consumeArgs(1)[0];

  while (arg.length === 1 && arg[0].text === "#") {
    arg = context.consumeArgs(1)[0];

    if (arg.length !== 1) {
      throw new ParseError(`Invalid argument number length "${arg.length}"`);
    }

    if (!/^[1-9]$/.test(arg[0].text)) {
      throw new ParseError(`Invalid argument number "${arg[0].text}"`);
    }

    numArgs++;

    if (parseInt(arg[0].text) !== numArgs) {
      throw new ParseError(`Argument number "${arg[0].text}" out of order`);
    }

    arg = context.consumeArgs(1)[0];
  } // Final arg is the expansion of the macro


  context.macros.set(name, {
    tokens: arg,
    numArgs
  }, global);
  return '';
};

defineMacro("\\gdef", context => def(context, true));
defineMacro("\\def", context => def(context, false));
defineMacro("\\global", context => {
  const next = context.consumeArgs(1)[0];

  if (next.length !== 1) {
    throw new ParseError("Invalid command after \\global");
  }

  const command = next[0].text; // TODO: Should expand command

  if (command === "\\def") {
    // \global\def is equivalent to \gdef
    return def(context, true);
  } else {
    throw new ParseError(`Invalid command '${command}' after \\global`);
  }
}); // \newcommand{\macro}[args]{definition}
// \renewcommand{\macro}[args]{definition}
// TODO: Optional arguments: \newcommand{\macro}[args][default]{definition}

const newcommand = (context, existsOK, nonexistsOK) => {
  let arg = context.consumeArgs(1)[0];

  if (arg.length !== 1) {
    throw new ParseError("\\newcommand's first argument must be a macro name");
  }

  const name = arg[0].text;
  const exists = context.isDefined(name);

  if (exists && !existsOK) {
    throw new ParseError(`\\newcommand{${name}} attempting to redefine ` + `${name}; use \\renewcommand`);
  }

  if (!exists && !nonexistsOK) {
    throw new ParseError(`\\renewcommand{${name}} when command ${name} ` + `does not yet exist; use \\newcommand`);
  }

  let numArgs = 0;
  arg = context.consumeArgs(1)[0];

  if (arg.length === 1 && arg[0].text === "[") {
    let argText = '';
    let token = context.expandNextToken();

    while (token.text !== "]" && token.text !== "EOF") {
      // TODO: Should properly expand arg, e.g., ignore {}s
      argText += token.text;
      token = context.expandNextToken();
    }

    if (!argText.match(/^\s*[0-9]+\s*$/)) {
      throw new ParseError(`Invalid number of arguments: ${argText}`);
    }

    numArgs = parseInt(argText);
    arg = context.consumeArgs(1)[0];
  } // Final arg is the expansion of the macro


  context.macros.set(name, {
    tokens: arg,
    numArgs
  });
  return '';
};

defineMacro("\\newcommand", context => newcommand(context, false, true));
defineMacro("\\renewcommand", context => newcommand(context, true, false));
defineMacro("\\providecommand", context => newcommand(context, true, true)); //////////////////////////////////////////////////////////////////////
// Grouping
// \let\bgroup={ \let\egroup=}

defineMacro("\\bgroup", "{");
defineMacro("\\egroup", "}"); // Symbols from latex.ltx:
// \def\lq{`}
// \def\rq{'}
// \def \aa {\r a}
// \def \AA {\r A}

defineMacro("\\lq", "`");
defineMacro("\\rq", "'");
defineMacro("\\aa", "\\r a");
defineMacro("\\AA", "\\r A"); // Copyright (C) and registered (R) symbols. Use raw symbol in MathML.
// \DeclareTextCommandDefault{\textcopyright}{\textcircled{c}}
// \DeclareTextCommandDefault{\textregistered}{\textcircled{%
//      \check@mathfonts\fontsize\sf@size\z@\math@fontsfalse\selectfont R}}
// \DeclareRobustCommand{\copyright}{%
//    \ifmmode{\nfss@text{\textcopyright}}\else\textcopyright\fi}

defineMacro("\\textcopyright", "\\html@mathml{\\textcircled{c}}{\\char`©}");
defineMacro("\\copyright", "\\TextOrMath{\\textcopyright}{\\text{\\textcopyright}}");
defineMacro("\\textregistered", "\\html@mathml{\\textcircled{\\scriptsize R}}{\\char`®}"); // Characters omitted from Unicode range 1D400–1D7FF

defineMacro("\u212C", "\\mathscr{B}"); // script

defineMacro("\u2130", "\\mathscr{E}");
defineMacro("\u2131", "\\mathscr{F}");
defineMacro("\u210B", "\\mathscr{H}");
defineMacro("\u2110", "\\mathscr{I}");
defineMacro("\u2112", "\\mathscr{L}");
defineMacro("\u2133", "\\mathscr{M}");
defineMacro("\u211B", "\\mathscr{R}");
defineMacro("\u212D", "\\mathfrak{C}"); // Fraktur

defineMacro("\u210C", "\\mathfrak{H}");
defineMacro("\u2128", "\\mathfrak{Z}"); // Unicode middle dot
// The KaTeX fonts do not contain U+00B7. Instead, \cdotp displays
// the dot at U+22C5 and gives it punct spacing.

defineMacro("\u00b7", "\\cdotp"); // \llap and \rlap render their contents in text mode

defineMacro("\\llap", "\\mathllap{\\textrm{#1}}");
defineMacro("\\rlap", "\\mathrlap{\\textrm{#1}}");
defineMacro("\\clap", "\\mathclap{\\textrm{#1}}"); // \not is defined by base/fontmath.ltx via
// \DeclareMathSymbol{\not}{\mathrel}{symbols}{"36}
// It's thus treated like a \mathrel, but defined by a symbol that has zero
// width but extends to the right.  We use \rlap to get that spacing.

defineMacro("\\not", '\\mathrel{\\mathrlap\\@not}'); // Negated symbols from base/fontmath.ltx:
// \def\neq{\not=} \let\ne=\neq
// \DeclareRobustCommand
//   \notin{\mathrel{\m@th\mathpalette\c@ncel\in}}
// \def\c@ncel#1#2{\m@th\ooalign{$\hfil#1\mkern1mu/\hfil$\crcr$#1#2$}}

defineMacro("\\neq", "\\html@mathml{\\mathrel{\\not=}}{\\mathrel{\\char`≠}}");
defineMacro("\\ne", "\\neq");
defineMacro("\u2260", "\\neq");
defineMacro("\\notin", "\\html@mathml{\\mathrel{{\\in}\\mathllap{/\\mskip1mu}}}" + "{\\mathrel{\\char`∉}}");
defineMacro("\u2209", "\\notin"); // Unicode stacked relations

defineMacro("\u2258", "\\html@mathml{" + "\\mathrel{=\\kern{-1em}\\raisebox{0.4em}{$\\scriptsize\\frown$}}" + "}{\\mathrel{\\char`\u2258}}");
defineMacro("\u2259", "\\html@mathml{\\stackrel{\\tiny\\wedge}{=}}{\\mathrel{\\char`\u2258}}");
defineMacro("\u225A", "\\html@mathml{\\stackrel{\\tiny\\vee}{=}}{\\mathrel{\\char`\u225A}}");
defineMacro("\u225B", "\\html@mathml{\\stackrel{\\scriptsize\\star}{=}}" + "{\\mathrel{\\char`\u225B}}");
defineMacro("\u225D", "\\html@mathml{\\stackrel{\\tiny\\mathrm{def}}{=}}" + "{\\mathrel{\\char`\u225D}}");
defineMacro("\u225E", "\\html@mathml{\\stackrel{\\tiny\\mathrm{m}}{=}}" + "{\\mathrel{\\char`\u225E}}");
defineMacro("\u225F", "\\html@mathml{\\stackrel{\\tiny?}{=}}{\\mathrel{\\char`\u225F}}"); // Misc Unicode

defineMacro("\u27C2", "\\perp");
defineMacro("\u203C", "\\mathclose{!\\mkern-0.8mu!}");
defineMacro("\u220C", "\\notni");
defineMacro("\u231C", "\\ulcorner");
defineMacro("\u231D", "\\urcorner");
defineMacro("\u231E", "\\llcorner");
defineMacro("\u231F", "\\lrcorner");
defineMacro("\u00A9", "\\copyright");
defineMacro("\u00AE", "\\textregistered");
defineMacro("\uFE0F", "\\textregistered"); //////////////////////////////////////////////////////////////////////
// LaTeX_2ε
// \vdots{\vbox{\baselineskip4\p@  \lineskiplimit\z@
// \kern6\p@\hbox{.}\hbox{.}\hbox{.}}}
// We'll call \varvdots, which gets a glyph from symbols.js.
// The zero-width rule gets us an equivalent to the vertical 6pt kern.

defineMacro("\\vdots", "\\mathord{\\varvdots\\rule{0pt}{15pt}}");
defineMacro("\u22ee", "\\vdots"); //////////////////////////////////////////////////////////////////////
// amsmath.sty
// http://mirrors.concertpass.com/tex-archive/macros/latex/required/amsmath/amsmath.pdf
// Italic Greek capital letters.  AMS defines these with \DeclareMathSymbol,
// but they are equivalent to \mathit{\Letter}.

defineMacro("\\varGamma", "\\mathit{\\Gamma}");
defineMacro("\\varDelta", "\\mathit{\\Delta}");
defineMacro("\\varTheta", "\\mathit{\\Theta}");
defineMacro("\\varLambda", "\\mathit{\\Lambda}");
defineMacro("\\varXi", "\\mathit{\\Xi}");
defineMacro("\\varPi", "\\mathit{\\Pi}");
defineMacro("\\varSigma", "\\mathit{\\Sigma}");
defineMacro("\\varUpsilon", "\\mathit{\\Upsilon}");
defineMacro("\\varPhi", "\\mathit{\\Phi}");
defineMacro("\\varPsi", "\\mathit{\\Psi}");
defineMacro("\\varOmega", "\\mathit{\\Omega}"); // \renewcommand{\colon}{\nobreak\mskip2mu\mathpunct{}\nonscript
// \mkern-\thinmuskip{:}\mskip6muplus1mu\relax}

defineMacro("\\colon", "\\nobreak\\mskip2mu\\mathpunct{}" + "\\mathchoice{\\mkern-3mu}{\\mkern-3mu}{}{}{:}\\mskip6mu"); // \newcommand{\boxed}[1]{\fbox{\m@th$\displaystyle#1$}}

defineMacro("\\boxed", "\\fbox{$\\displaystyle{#1}$}"); // \def\iff{\DOTSB\;\Longleftrightarrow\;}
// \def\implies{\DOTSB\;\Longrightarrow\;}
// \def\impliedby{\DOTSB\;\Longleftarrow\;}

defineMacro("\\iff", "\\DOTSB\\;\\Longleftrightarrow\\;");
defineMacro("\\implies", "\\DOTSB\\;\\Longrightarrow\\;");
defineMacro("\\impliedby", "\\DOTSB\\;\\Longleftarrow\\;"); // AMSMath's automatic \dots, based on \mdots@@ macro.

const dotsByToken = {
  ',': '\\dotsc',
  '\\not': '\\dotsb',
  // \keybin@ checks for the following:
  '+': '\\dotsb',
  '=': '\\dotsb',
  '<': '\\dotsb',
  '>': '\\dotsb',
  '-': '\\dotsb',
  '*': '\\dotsb',
  ':': '\\dotsb',
  // Symbols whose definition starts with \DOTSB:
  '\\DOTSB': '\\dotsb',
  '\\coprod': '\\dotsb',
  '\\bigvee': '\\dotsb',
  '\\bigwedge': '\\dotsb',
  '\\biguplus': '\\dotsb',
  '\\bigcap': '\\dotsb',
  '\\bigcup': '\\dotsb',
  '\\prod': '\\dotsb',
  '\\sum': '\\dotsb',
  '\\bigotimes': '\\dotsb',
  '\\bigoplus': '\\dotsb',
  '\\bigodot': '\\dotsb',
  '\\bigsqcup': '\\dotsb',
  '\\And': '\\dotsb',
  '\\longrightarrow': '\\dotsb',
  '\\Longrightarrow': '\\dotsb',
  '\\longleftarrow': '\\dotsb',
  '\\Longleftarrow': '\\dotsb',
  '\\longleftrightarrow': '\\dotsb',
  '\\Longleftrightarrow': '\\dotsb',
  '\\mapsto': '\\dotsb',
  '\\longmapsto': '\\dotsb',
  '\\hookrightarrow': '\\dotsb',
  '\\doteq': '\\dotsb',
  // Symbols whose definition starts with \mathbin:
  '\\mathbin': '\\dotsb',
  // Symbols whose definition starts with \mathrel:
  '\\mathrel': '\\dotsb',
  '\\relbar': '\\dotsb',
  '\\Relbar': '\\dotsb',
  '\\xrightarrow': '\\dotsb',
  '\\xleftarrow': '\\dotsb',
  // Symbols whose definition starts with \DOTSI:
  '\\DOTSI': '\\dotsi',
  '\\int': '\\dotsi',
  '\\oint': '\\dotsi',
  '\\iint': '\\dotsi',
  '\\iiint': '\\dotsi',
  '\\iiiint': '\\dotsi',
  '\\idotsint': '\\dotsi',
  // Symbols whose definition starts with \DOTSX:
  '\\DOTSX': '\\dotsx'
};
defineMacro("\\dots", function (context) {
  // TODO: If used in text mode, should expand to \textellipsis.
  // However, in KaTeX, \textellipsis and \ldots behave the same
  // (in text mode), and it's unlikely we'd see any of the math commands
  // that affect the behavior of \dots when in text mode.  So fine for now
  // (until we support \ifmmode ... \else ... \fi).
  let thedots = '\\dotso';
  const next = context.expandAfterFuture().text;

  if (next in dotsByToken) {
    thedots = dotsByToken[next];
  } else if (next.substr(0, 4) === '\\not') {
    thedots = '\\dotsb';
  } else if (next in symbols.math) {
    if (utils.contains(['bin', 'rel'], symbols.math[next].group)) {
      thedots = '\\dotsb';
    }
  }

  return thedots;
});
const spaceAfterDots = {
  // \rightdelim@ checks for the following:
  ')': true,
  ']': true,
  '\\rbrack': true,
  '\\}': true,
  '\\rbrace': true,
  '\\rangle': true,
  '\\rceil': true,
  '\\rfloor': true,
  '\\rgroup': true,
  '\\rmoustache': true,
  '\\right': true,
  '\\bigr': true,
  '\\biggr': true,
  '\\Bigr': true,
  '\\Biggr': true,
  // \extra@ also tests for the following:
  '$': true,
  // \extrap@ checks for the following:
  ';': true,
  '.': true,
  ',': true
};
defineMacro("\\dotso", function (context) {
  const next = context.future().text;

  if (next in spaceAfterDots) {
    return "\\ldots\\,";
  } else {
    return "\\ldots";
  }
});
defineMacro("\\dotsc", function (context) {
  const next = context.future().text; // \dotsc uses \extra@ but not \extrap@, instead specially checking for
  // ';' and '.', but doesn't check for ','.

  if (next in spaceAfterDots && next !== ',') {
    return "\\ldots\\,";
  } else {
    return "\\ldots";
  }
});
defineMacro("\\cdots", function (context) {
  const next = context.future().text;

  if (next in spaceAfterDots) {
    return "\\@cdots\\,";
  } else {
    return "\\@cdots";
  }
});
defineMacro("\\dotsb", "\\cdots");
defineMacro("\\dotsm", "\\cdots");
defineMacro("\\dotsi", "\\!\\cdots"); // amsmath doesn't actually define \dotsx, but \dots followed by a macro
// starting with \DOTSX implies \dotso, and then \extra@ detects this case
// and forces the added `\,`.

defineMacro("\\dotsx", "\\ldots\\,"); // \let\DOTSI\relax
// \let\DOTSB\relax
// \let\DOTSX\relax

defineMacro("\\DOTSI", "\\relax");
defineMacro("\\DOTSB", "\\relax");
defineMacro("\\DOTSX", "\\relax"); // Spacing, based on amsmath.sty's override of LaTeX defaults
// \DeclareRobustCommand{\tmspace}[3]{%
//   \ifmmode\mskip#1#2\else\kern#1#3\fi\relax}

defineMacro("\\tmspace", "\\TextOrMath{\\kern#1#3}{\\mskip#1#2}\\relax"); // \renewcommand{\,}{\tmspace+\thinmuskip{.1667em}}
// TODO: math mode should use \thinmuskip

defineMacro("\\,", "\\tmspace+{3mu}{.1667em}"); // \let\thinspace\,

defineMacro("\\thinspace", "\\,"); // \def\>{\mskip\medmuskip}
// \renewcommand{\:}{\tmspace+\medmuskip{.2222em}}
// TODO: \> and math mode of \: should use \medmuskip = 4mu plus 2mu minus 4mu

defineMacro("\\>", "\\mskip{4mu}");
defineMacro("\\:", "\\tmspace+{4mu}{.2222em}"); // \let\medspace\:

defineMacro("\\medspace", "\\:"); // \renewcommand{\;}{\tmspace+\thickmuskip{.2777em}}
// TODO: math mode should use \thickmuskip = 5mu plus 5mu

defineMacro("\\;", "\\tmspace+{5mu}{.2777em}"); // \let\thickspace\;

defineMacro("\\thickspace", "\\;"); // \renewcommand{\!}{\tmspace-\thinmuskip{.1667em}}
// TODO: math mode should use \thinmuskip

defineMacro("\\!", "\\tmspace-{3mu}{.1667em}"); // \let\negthinspace\!

defineMacro("\\negthinspace", "\\!"); // \newcommand{\negmedspace}{\tmspace-\medmuskip{.2222em}}
// TODO: math mode should use \medmuskip

defineMacro("\\negmedspace", "\\tmspace-{4mu}{.2222em}"); // \newcommand{\negthickspace}{\tmspace-\thickmuskip{.2777em}}
// TODO: math mode should use \thickmuskip

defineMacro("\\negthickspace", "\\tmspace-{5mu}{.277em}"); // \def\enspace{\kern.5em }

defineMacro("\\enspace", "\\kern.5em "); // \def\enskip{\hskip.5em\relax}

defineMacro("\\enskip", "\\hskip.5em\\relax"); // \def\quad{\hskip1em\relax}

defineMacro("\\quad", "\\hskip1em\\relax"); // \def\qquad{\hskip2em\relax}

defineMacro("\\qquad", "\\hskip2em\\relax"); // \tag@in@display form of \tag

defineMacro("\\tag", "\\@ifstar\\tag@literal\\tag@paren");
defineMacro("\\tag@paren", "\\tag@literal{({#1})}");
defineMacro("\\tag@literal", context => {
  if (context.macros.get("\\df@tag")) {
    throw new ParseError("Multiple \\tag");
  }

  return "\\gdef\\df@tag{\\text{#1}}";
}); // \renewcommand{\bmod}{\nonscript\mskip-\medmuskip\mkern5mu\mathbin
//   {\operator@font mod}\penalty900
//   \mkern5mu\nonscript\mskip-\medmuskip}
// \newcommand{\pod}[1]{\allowbreak
//   \if@display\mkern18mu\else\mkern8mu\fi(#1)}
// \renewcommand{\pmod}[1]{\pod{{\operator@font mod}\mkern6mu#1}}
// \newcommand{\mod}[1]{\allowbreak\if@display\mkern18mu
//   \else\mkern12mu\fi{\operator@font mod}\,\,#1}
// TODO: math mode should use \medmuskip = 4mu plus 2mu minus 4mu

defineMacro("\\bmod", "\\mathchoice{\\mskip1mu}{\\mskip1mu}{\\mskip5mu}{\\mskip5mu}" + "\\mathbin{\\rm mod}" + "\\mathchoice{\\mskip1mu}{\\mskip1mu}{\\mskip5mu}{\\mskip5mu}");
defineMacro("\\pod", "\\allowbreak" + "\\mathchoice{\\mkern18mu}{\\mkern8mu}{\\mkern8mu}{\\mkern8mu}(#1)");
defineMacro("\\pmod", "\\pod{{\\rm mod}\\mkern6mu#1}");
defineMacro("\\mod", "\\allowbreak" + "\\mathchoice{\\mkern18mu}{\\mkern12mu}{\\mkern12mu}{\\mkern12mu}" + "{\\rm mod}\\,\\,#1"); // \pmb    --   A simulation of bold.
// It works by typesetting three copies of the argument with small offsets.
// Ref: a rather lengthy macro in ambsy.sty

defineMacro("\\pmb", "\\html@mathml{\\@binrel{#1}{" + "\\mathrlap{#1}" + "\\mathrlap{\\mkern0.4mu\\raisebox{0.4mu}{$#1$}}" + "{\\mkern0.8mu#1}" + "}}{\\mathbf{#1}}"); //////////////////////////////////////////////////////////////////////
// LaTeX source2e
// \\ defaults to \newline, but changes to \cr within array environment

defineMacro("\\\\", "\\newline"); // \def\TeX{T\kern-.1667em\lower.5ex\hbox{E}\kern-.125emX\@}
// TODO: Doesn't normally work in math mode because \@ fails.  KaTeX doesn't
// support \@ yet, so that's omitted, and we add \text so that the result
// doesn't look funny in math mode.

defineMacro("\\TeX", "\\textrm{\\html@mathml{" + "T\\kern-.1667em\\raisebox{-.5ex}{E}\\kern-.125emX" + "}{TeX}}"); // \DeclareRobustCommand{\LaTeX}{L\kern-.36em%
//         {\sbox\z@ T%
//          \vbox to\ht\z@{\hbox{\check@mathfonts
//                               \fontsize\sf@size\z@
//                               \math@fontsfalse\selectfont
//                               A}%
//                         \vss}%
//         }%
//         \kern-.15em%
//         \TeX}
// This code aligns the top of the A with the T (from the perspective of TeX's
// boxes, though visually the A appears to extend above slightly).
// We compute the corresponding \raisebox when A is rendered at \scriptsize,
// which is size3, which has a scale factor of 0.7 (see Options.js).

const latexRaiseA = metricMap['Main-Regular']["T".charCodeAt(0)][1] - 0.7 * metricMap['Main-Regular']["A".charCodeAt(0)][1] + "em";
defineMacro("\\LaTeX", "\\textrm{\\html@mathml{" + `L\\kern-.36em\\raisebox{${latexRaiseA}}{\\scriptsize A}` + "\\kern-.15em\\TeX}{LaTeX}}"); // New KaTeX logo based on tweaking LaTeX logo

defineMacro("\\KaTeX", "\\textrm{\\html@mathml{" + `K\\kern-.17em\\raisebox{${latexRaiseA}}{\\scriptsize A}` + "\\kern-.15em\\TeX}{KaTeX}}"); // \DeclareRobustCommand\hspace{\@ifstar\@hspacer\@hspace}
// \def\@hspace#1{\hskip  #1\relax}
// \def\@hspacer#1{\vrule \@width\z@\nobreak
//                 \hskip #1\hskip \z@skip}

defineMacro("\\hspace", "\\@ifstar\\@hspacer\\@hspace");
defineMacro("\\@hspace", "\\hskip #1\\relax");
defineMacro("\\@hspacer", "\\rule{0pt}{0pt}\\hskip #1\\relax"); //////////////////////////////////////////////////////////////////////
// mathtools.sty
//\providecommand\ordinarycolon{:}

defineMacro("\\ordinarycolon", ":"); //\def\vcentcolon{\mathrel{\mathop\ordinarycolon}}
//TODO(edemaine): Not yet centered. Fix via \raisebox or #726

defineMacro("\\vcentcolon", "\\mathrel{\\mathop\\ordinarycolon}"); // \providecommand*\dblcolon{\vcentcolon\mathrel{\mkern-.9mu}\vcentcolon}

defineMacro("\\dblcolon", "\\mathrel{\\vcentcolon\\mathrel{\\mkern-.9mu}\\vcentcolon}"); // \providecommand*\coloneqq{\vcentcolon\mathrel{\mkern-1.2mu}=}

defineMacro("\\coloneqq", "\\mathrel{\\vcentcolon\\mathrel{\\mkern-1.2mu}=}"); // \providecommand*\Coloneqq{\dblcolon\mathrel{\mkern-1.2mu}=}

defineMacro("\\Coloneqq", "\\mathrel{\\dblcolon\\mathrel{\\mkern-1.2mu}=}"); // \providecommand*\coloneq{\vcentcolon\mathrel{\mkern-1.2mu}\mathrel{-}}

defineMacro("\\coloneq", "\\mathrel{\\vcentcolon\\mathrel{\\mkern-1.2mu}\\mathrel{-}}"); // \providecommand*\Coloneq{\dblcolon\mathrel{\mkern-1.2mu}\mathrel{-}}

defineMacro("\\Coloneq", "\\mathrel{\\dblcolon\\mathrel{\\mkern-1.2mu}\\mathrel{-}}"); // \providecommand*\eqqcolon{=\mathrel{\mkern-1.2mu}\vcentcolon}

defineMacro("\\eqqcolon", "\\mathrel{=\\mathrel{\\mkern-1.2mu}\\vcentcolon}"); // \providecommand*\Eqqcolon{=\mathrel{\mkern-1.2mu}\dblcolon}

defineMacro("\\Eqqcolon", "\\mathrel{=\\mathrel{\\mkern-1.2mu}\\dblcolon}"); // \providecommand*\eqcolon{\mathrel{-}\mathrel{\mkern-1.2mu}\vcentcolon}

defineMacro("\\eqcolon", "\\mathrel{\\mathrel{-}\\mathrel{\\mkern-1.2mu}\\vcentcolon}"); // \providecommand*\Eqcolon{\mathrel{-}\mathrel{\mkern-1.2mu}\dblcolon}

defineMacro("\\Eqcolon", "\\mathrel{\\mathrel{-}\\mathrel{\\mkern-1.2mu}\\dblcolon}"); // \providecommand*\colonapprox{\vcentcolon\mathrel{\mkern-1.2mu}\approx}

defineMacro("\\colonapprox", "\\mathrel{\\vcentcolon\\mathrel{\\mkern-1.2mu}\\approx}"); // \providecommand*\Colonapprox{\dblcolon\mathrel{\mkern-1.2mu}\approx}

defineMacro("\\Colonapprox", "\\mathrel{\\dblcolon\\mathrel{\\mkern-1.2mu}\\approx}"); // \providecommand*\colonsim{\vcentcolon\mathrel{\mkern-1.2mu}\sim}

defineMacro("\\colonsim", "\\mathrel{\\vcentcolon\\mathrel{\\mkern-1.2mu}\\sim}"); // \providecommand*\Colonsim{\dblcolon\mathrel{\mkern-1.2mu}\sim}

defineMacro("\\Colonsim", "\\mathrel{\\dblcolon\\mathrel{\\mkern-1.2mu}\\sim}"); // Some Unicode characters are implemented with macros to mathtools functions.

defineMacro("\u2254", "\\coloneqq"); // :=

defineMacro("\u2255", "\\eqqcolon"); // =:

defineMacro("\u2A74", "\\Coloneqq"); // ::=
//////////////////////////////////////////////////////////////////////
// colonequals.sty
// Alternate names for mathtools's macros:

defineMacro("\\ratio", "\\vcentcolon");
defineMacro("\\coloncolon", "\\dblcolon");
defineMacro("\\colonequals", "\\coloneqq");
defineMacro("\\coloncolonequals", "\\Coloneqq");
defineMacro("\\equalscolon", "\\eqqcolon");
defineMacro("\\equalscoloncolon", "\\Eqqcolon");
defineMacro("\\colonminus", "\\coloneq");
defineMacro("\\coloncolonminus", "\\Coloneq");
defineMacro("\\minuscolon", "\\eqcolon");
defineMacro("\\minuscoloncolon", "\\Eqcolon"); // \colonapprox name is same in mathtools and colonequals.

defineMacro("\\coloncolonapprox", "\\Colonapprox"); // \colonsim name is same in mathtools and colonequals.

defineMacro("\\coloncolonsim", "\\Colonsim"); // Additional macros, implemented by analogy with mathtools definitions:

defineMacro("\\simcolon", "\\mathrel{\\sim\\mathrel{\\mkern-1.2mu}\\vcentcolon}");
defineMacro("\\simcoloncolon", "\\mathrel{\\sim\\mathrel{\\mkern-1.2mu}\\dblcolon}");
defineMacro("\\approxcolon", "\\mathrel{\\approx\\mathrel{\\mkern-1.2mu}\\vcentcolon}");
defineMacro("\\approxcoloncolon", "\\mathrel{\\approx\\mathrel{\\mkern-1.2mu}\\dblcolon}"); // Present in newtxmath, pxfonts and txfonts

defineMacro("\\notni", "\\html@mathml{\\not\\ni}{\\mathrel{\\char`\u220C}}");
defineMacro("\\limsup", "\\DOTSB\\mathop{\\operatorname{lim\\,sup}}\\limits");
defineMacro("\\liminf", "\\DOTSB\\mathop{\\operatorname{lim\\,inf}}\\limits"); //////////////////////////////////////////////////////////////////////
// semantic
// The semantic package renders the next two items by calling a glyph from the
// bbold package. Those glyphs do not exist in the KaTeX fonts. Hence the macros.

defineMacro("\u27e6", "\\mathopen{[\\mkern-3.2mu[}"); // blackboard bold [

defineMacro("\u27e7", "\\mathclose{]\\mkern-3.2mu]}"); // blackboard bold ]
// TODO: Create variable sized versions of the last two items. I believe that
// will require new font glyphs.
//////////////////////////////////////////////////////////////////////
// texvc.sty
// The texvc package contains macros available in mediawiki pages.
// We omit the functions deprecated at
// https://en.wikipedia.org/wiki/Help:Displaying_a_formula#Deprecated_syntax
// We also omit texvc's \O, which conflicts with \text{\O}

defineMacro("\\darr", "\\downarrow");
defineMacro("\\dArr", "\\Downarrow");
defineMacro("\\Darr", "\\Downarrow");
defineMacro("\\lang", "\\langle");
defineMacro("\\rang", "\\rangle");
defineMacro("\\uarr", "\\uparrow");
defineMacro("\\uArr", "\\Uparrow");
defineMacro("\\Uarr", "\\Uparrow");
defineMacro("\\N", "\\mathbb{N}");
defineMacro("\\R", "\\mathbb{R}");
defineMacro("\\Z", "\\mathbb{Z}");
defineMacro("\\alef", "\\aleph");
defineMacro("\\alefsym", "\\aleph");
defineMacro("\\Alpha", "\\mathrm{A}");
defineMacro("\\Beta", "\\mathrm{B}");
defineMacro("\\bull", "\\bullet");
defineMacro("\\Chi", "\\mathrm{X}");
defineMacro("\\clubs", "\\clubsuit");
defineMacro("\\cnums", "\\mathbb{C}");
defineMacro("\\Complex", "\\mathbb{C}");
defineMacro("\\Dagger", "\\ddagger");
defineMacro("\\diamonds", "\\diamondsuit");
defineMacro("\\empty", "\\emptyset");
defineMacro("\\Epsilon", "\\mathrm{E}");
defineMacro("\\Eta", "\\mathrm{H}");
defineMacro("\\exist", "\\exists");
defineMacro("\\harr", "\\leftrightarrow");
defineMacro("\\hArr", "\\Leftrightarrow");
defineMacro("\\Harr", "\\Leftrightarrow");
defineMacro("\\hearts", "\\heartsuit");
defineMacro("\\image", "\\Im");
defineMacro("\\infin", "\\infty");
defineMacro("\\Iota", "\\mathrm{I}");
defineMacro("\\isin", "\\in");
defineMacro("\\Kappa", "\\mathrm{K}");
defineMacro("\\larr", "\\leftarrow");
defineMacro("\\lArr", "\\Leftarrow");
defineMacro("\\Larr", "\\Leftarrow");
defineMacro("\\lrarr", "\\leftrightarrow");
defineMacro("\\lrArr", "\\Leftrightarrow");
defineMacro("\\Lrarr", "\\Leftrightarrow");
defineMacro("\\Mu", "\\mathrm{M}");
defineMacro("\\natnums", "\\mathbb{N}");
defineMacro("\\Nu", "\\mathrm{N}");
defineMacro("\\Omicron", "\\mathrm{O}");
defineMacro("\\plusmn", "\\pm");
defineMacro("\\rarr", "\\rightarrow");
defineMacro("\\rArr", "\\Rightarrow");
defineMacro("\\Rarr", "\\Rightarrow");
defineMacro("\\real", "\\Re");
defineMacro("\\reals", "\\mathbb{R}");
defineMacro("\\Reals", "\\mathbb{R}");
defineMacro("\\Rho", "\\mathrm{R}");
defineMacro("\\sdot", "\\cdot");
defineMacro("\\sect", "\\S");
defineMacro("\\spades", "\\spadesuit");
defineMacro("\\sub", "\\subset");
defineMacro("\\sube", "\\subseteq");
defineMacro("\\supe", "\\supseteq");
defineMacro("\\Tau", "\\mathrm{T}");
defineMacro("\\thetasym", "\\vartheta"); // TODO: defineMacro("\\varcoppa", "\\\mbox{\\coppa}");

defineMacro("\\weierp", "\\wp");
defineMacro("\\Zeta", "\\mathrm{Z}"); //////////////////////////////////////////////////////////////////////
// statmath.sty
// https://ctan.math.illinois.edu/macros/latex/contrib/statmath/statmath.pdf

defineMacro("\\argmin", "\\DOTSB\\mathop{\\operatorname{arg\\,min}}\\limits");
defineMacro("\\argmax", "\\DOTSB\\mathop{\\operatorname{arg\\,max}}\\limits");

/**
 * This file contains the “gullet” where macros are expanded
 * until only non-macro tokens remain.
 */
// List of commands that act like macros but aren't defined as a macro,
// function, or symbol.  Used in `isDefined`.
const implicitCommands = {
  "\\relax": true,
  // MacroExpander.js
  "^": true,
  // Parser.js
  "_": true,
  // Parser.js
  "\\limits": true,
  // Parser.js
  "\\nolimits": true // Parser.js

};
class MacroExpander {
  constructor(input, settings, mode) {
    this.settings = void 0;
    this.expansionCount = void 0;
    this.lexer = void 0;
    this.macros = void 0;
    this.stack = void 0;
    this.mode = void 0;
    this.settings = settings;
    this.expansionCount = 0;
    this.feed(input); // Make new global namespace

    this.macros = new Namespace(builtinMacros, settings.macros);
    this.mode = mode;
    this.stack = []; // contains tokens in REVERSE order
  }
  /**
   * Feed a new input string to the same MacroExpander
   * (with existing macros etc.).
   */


  feed(input) {
    this.lexer = new Lexer(input, this.settings);
  }
  /**
   * Switches between "text" and "math" modes.
   */


  switchMode(newMode) {
    this.mode = newMode;
  }
  /**
   * Start a new group nesting within all namespaces.
   */


  beginGroup() {
    this.macros.beginGroup();
  }
  /**
   * End current group nesting within all namespaces.
   */


  endGroup() {
    this.macros.endGroup();
  }
  /**
   * Returns the topmost token on the stack, without expanding it.
   * Similar in behavior to TeX's `\futurelet`.
   */


  future() {
    if (this.stack.length === 0) {
      this.pushToken(this.lexer.lex());
    }

    return this.stack[this.stack.length - 1];
  }
  /**
   * Remove and return the next unexpanded token.
   */


  popToken() {
    this.future(); // ensure non-empty stack

    return this.stack.pop();
  }
  /**
   * Add a given token to the token stack.  In particular, this get be used
   * to put back a token returned from one of the other methods.
   */


  pushToken(token) {
    this.stack.push(token);
  }
  /**
   * Append an array of tokens to the token stack.
   */


  pushTokens(tokens) {
    this.stack.push(...tokens);
  }
  /**
   * Consume all following space tokens, without expansion.
   */


  consumeSpaces() {
    for (;;) {
      const token = this.future();

      if (token.text === " ") {
        this.stack.pop();
      } else {
        break;
      }
    }
  }
  /**
   * Consume the specified number of arguments from the token stream,
   * and return the resulting array of arguments.
   */


  consumeArgs(numArgs) {
    const args = []; // obtain arguments, either single token or balanced {…} group

    for (let i = 0; i < numArgs; ++i) {
      this.consumeSpaces(); // ignore spaces before each argument

      const startOfArg = this.popToken();

      if (startOfArg.text === "{") {
        const arg = [];
        let depth = 1;

        while (depth !== 0) {
          const tok = this.popToken();
          arg.push(tok);

          if (tok.text === "{") {
            ++depth;
          } else if (tok.text === "}") {
            --depth;
          } else if (tok.text === "EOF") {
            throw new ParseError("End of input in macro argument", startOfArg);
          }
        }

        arg.pop(); // remove last }

        arg.reverse(); // like above, to fit in with stack order

        args[i] = arg;
      } else if (startOfArg.text === "EOF") {
        throw new ParseError("End of input expecting macro argument");
      } else {
        args[i] = [startOfArg];
      }
    }

    return args;
  }
  /**
   * Expand the next token only once if possible.
   *
   * If the token is expanded, the resulting tokens will be pushed onto
   * the stack in reverse order and will be returned as an array,
   * also in reverse order.
   *
   * If not, the next token will be returned without removing it
   * from the stack.  This case can be detected by a `Token` return value
   * instead of an `Array` return value.
   *
   * In either case, the next token will be on the top of the stack,
   * or the stack will be empty.
   *
   * Used to implement `expandAfterFuture` and `expandNextToken`.
   *
   * At the moment, macro expansion doesn't handle delimited macros,
   * i.e. things like those defined by \def\foo#1\end{…}.
   * See the TeX book page 202ff. for details on how those should behave.
   */


  expandOnce() {
    const topToken = this.popToken();
    const name = topToken.text;

    const expansion = this._getExpansion(name);

    if (expansion == null) {
      // mainly checking for undefined here
      // Fully expanded
      this.pushToken(topToken);
      return topToken;
    }

    this.expansionCount++;

    if (this.expansionCount > this.settings.maxExpand) {
      throw new ParseError("Too many expansions: infinite loop or " + "need to increase maxExpand setting");
    }

    let tokens = expansion.tokens;

    if (expansion.numArgs) {
      const args = this.consumeArgs(expansion.numArgs); // paste arguments in place of the placeholders

      tokens = tokens.slice(); // make a shallow copy

      for (let i = tokens.length - 1; i >= 0; --i) {
        let tok = tokens[i];

        if (tok.text === "#") {
          if (i === 0) {
            throw new ParseError("Incomplete placeholder at end of macro body", tok);
          }

          tok = tokens[--i]; // next token on stack

          if (tok.text === "#") {
            // ## → #
            tokens.splice(i + 1, 1); // drop first #
          } else if (/^[1-9]$/.test(tok.text)) {
            // replace the placeholder with the indicated argument
            tokens.splice(i, 2, ...args[+tok.text - 1]);
          } else {
            throw new ParseError("Not a valid argument number", tok);
          }
        }
      }
    } // Concatenate expansion onto top of stack.


    this.pushTokens(tokens);
    return tokens;
  }
  /**
   * Expand the next token only once (if possible), and return the resulting
   * top token on the stack (without removing anything from the stack).
   * Similar in behavior to TeX's `\expandafter\futurelet`.
   * Equivalent to expandOnce() followed by future().
   */


  expandAfterFuture() {
    this.expandOnce();
    return this.future();
  }
  /**
   * Recursively expand first token, then return first non-expandable token.
   */


  expandNextToken() {
    for (;;) {
      const expanded = this.expandOnce(); // expandOnce returns Token if and only if it's fully expanded.

      if (expanded instanceof Token) {
        // \relax stops the expansion, but shouldn't get returned (a
        // null return value couldn't get implemented as a function).
        if (expanded.text === "\\relax") {
          this.stack.pop();
        } else {
          return this.stack.pop(); // === expanded
        }
      }
    } // Flow unable to figure out that this pathway is impossible.
    // https://github.com/facebook/flow/issues/4808


    throw new Error(); // eslint-disable-line no-unreachable
  }
  /**
   * Fully expand the given macro name and return the resulting list of
   * tokens, or return `undefined` if no such macro is defined.
   */


  expandMacro(name) {
    if (!this.macros.get(name)) {
      return undefined;
    }

    const output = [];
    const oldStackLength = this.stack.length;
    this.pushToken(new Token(name));

    while (this.stack.length > oldStackLength) {
      const expanded = this.expandOnce(); // expandOnce returns Token if and only if it's fully expanded.

      if (expanded instanceof Token) {
        output.push(this.stack.pop());
      }
    }

    return output;
  }
  /**
   * Fully expand the given macro name and return the result as a string,
   * or return `undefined` if no such macro is defined.
   */


  expandMacroAsText(name) {
    const tokens = this.expandMacro(name);

    if (tokens) {
      return tokens.map(token => token.text).join("");
    } else {
      return tokens;
    }
  }
  /**
   * Returns the expanded macro as a reversed array of tokens and a macro
   * argument count.  Or returns `null` if no such macro.
   */


  _getExpansion(name) {
    const definition = this.macros.get(name);

    if (definition == null) {
      // mainly checking for undefined here
      return definition;
    }

    const expansion = typeof definition === "function" ? definition(this) : definition;

    if (typeof expansion === "string") {
      let numArgs = 0;

      if (expansion.indexOf("#") !== -1) {
        const stripped = expansion.replace(/##/g, "");

        while (stripped.indexOf("#" + (numArgs + 1)) !== -1) {
          ++numArgs;
        }
      }

      const bodyLexer = new Lexer(expansion, this.settings);
      const tokens = [];
      let tok = bodyLexer.lex();

      while (tok.text !== "EOF") {
        tokens.push(tok);
        tok = bodyLexer.lex();
      }

      tokens.reverse(); // to fit in with stack using push and pop

      const expanded = {
        tokens,
        numArgs
      };
      return expanded;
    }

    return expansion;
  }
  /**
   * Determine whether a command is currently "defined" (has some
   * functionality), meaning that it's a macro (in the current group),
   * a function, a symbol, or one of the special commands listed in
   * `implicitCommands`.
   */


  isDefined(name) {
    return this.macros.has(name) || functions.hasOwnProperty(name) || symbols.math.hasOwnProperty(name) || symbols.text.hasOwnProperty(name) || implicitCommands.hasOwnProperty(name);
  }

}

// Mapping of Unicode accent characters to their LaTeX equivalent in text and
// math mode (when they exist).
var unicodeAccents = {
  '\u0301': {
    text: "\\'",
    math: '\\acute'
  },
  '\u0300': {
    text: '\\`',
    math: '\\grave'
  },
  '\u0308': {
    text: '\\"',
    math: '\\ddot'
  },
  '\u0303': {
    text: '\\~',
    math: '\\tilde'
  },
  '\u0304': {
    text: '\\=',
    math: '\\bar'
  },
  '\u0306': {
    text: '\\u',
    math: '\\breve'
  },
  '\u030c': {
    text: '\\v',
    math: '\\check'
  },
  '\u0302': {
    text: '\\^',
    math: '\\hat'
  },
  '\u0307': {
    text: '\\.',
    math: '\\dot'
  },
  '\u030a': {
    text: '\\r',
    math: '\\mathring'
  },
  '\u030b': {
    text: '\\H'
  }
};

// This file is GENERATED by unicodeMake.js. DO NOT MODIFY.
var unicodeSymbols = {
  "\u00e1": "\u0061\u0301",
  // á = \'{a}
  "\u00e0": "\u0061\u0300",
  // à = \`{a}
  "\u00e4": "\u0061\u0308",
  // ä = \"{a}
  "\u01df": "\u0061\u0308\u0304",
  // ǟ = \"\={a}
  "\u00e3": "\u0061\u0303",
  // ã = \~{a}
  "\u0101": "\u0061\u0304",
  // ā = \={a}
  "\u0103": "\u0061\u0306",
  // ă = \u{a}
  "\u1eaf": "\u0061\u0306\u0301",
  // ắ = \u\'{a}
  "\u1eb1": "\u0061\u0306\u0300",
  // ằ = \u\`{a}
  "\u1eb5": "\u0061\u0306\u0303",
  // ẵ = \u\~{a}
  "\u01ce": "\u0061\u030c",
  // ǎ = \v{a}
  "\u00e2": "\u0061\u0302",
  // â = \^{a}
  "\u1ea5": "\u0061\u0302\u0301",
  // ấ = \^\'{a}
  "\u1ea7": "\u0061\u0302\u0300",
  // ầ = \^\`{a}
  "\u1eab": "\u0061\u0302\u0303",
  // ẫ = \^\~{a}
  "\u0227": "\u0061\u0307",
  // ȧ = \.{a}
  "\u01e1": "\u0061\u0307\u0304",
  // ǡ = \.\={a}
  "\u00e5": "\u0061\u030a",
  // å = \r{a}
  "\u01fb": "\u0061\u030a\u0301",
  // ǻ = \r\'{a}
  "\u1e03": "\u0062\u0307",
  // ḃ = \.{b}
  "\u0107": "\u0063\u0301",
  // ć = \'{c}
  "\u010d": "\u0063\u030c",
  // č = \v{c}
  "\u0109": "\u0063\u0302",
  // ĉ = \^{c}
  "\u010b": "\u0063\u0307",
  // ċ = \.{c}
  "\u010f": "\u0064\u030c",
  // ď = \v{d}
  "\u1e0b": "\u0064\u0307",
  // ḋ = \.{d}
  "\u00e9": "\u0065\u0301",
  // é = \'{e}
  "\u00e8": "\u0065\u0300",
  // è = \`{e}
  "\u00eb": "\u0065\u0308",
  // ë = \"{e}
  "\u1ebd": "\u0065\u0303",
  // ẽ = \~{e}
  "\u0113": "\u0065\u0304",
  // ē = \={e}
  "\u1e17": "\u0065\u0304\u0301",
  // ḗ = \=\'{e}
  "\u1e15": "\u0065\u0304\u0300",
  // ḕ = \=\`{e}
  "\u0115": "\u0065\u0306",
  // ĕ = \u{e}
  "\u011b": "\u0065\u030c",
  // ě = \v{e}
  "\u00ea": "\u0065\u0302",
  // ê = \^{e}
  "\u1ebf": "\u0065\u0302\u0301",
  // ế = \^\'{e}
  "\u1ec1": "\u0065\u0302\u0300",
  // ề = \^\`{e}
  "\u1ec5": "\u0065\u0302\u0303",
  // ễ = \^\~{e}
  "\u0117": "\u0065\u0307",
  // ė = \.{e}
  "\u1e1f": "\u0066\u0307",
  // ḟ = \.{f}
  "\u01f5": "\u0067\u0301",
  // ǵ = \'{g}
  "\u1e21": "\u0067\u0304",
  // ḡ = \={g}
  "\u011f": "\u0067\u0306",
  // ğ = \u{g}
  "\u01e7": "\u0067\u030c",
  // ǧ = \v{g}
  "\u011d": "\u0067\u0302",
  // ĝ = \^{g}
  "\u0121": "\u0067\u0307",
  // ġ = \.{g}
  "\u1e27": "\u0068\u0308",
  // ḧ = \"{h}
  "\u021f": "\u0068\u030c",
  // ȟ = \v{h}
  "\u0125": "\u0068\u0302",
  // ĥ = \^{h}
  "\u1e23": "\u0068\u0307",
  // ḣ = \.{h}
  "\u00ed": "\u0069\u0301",
  // í = \'{i}
  "\u00ec": "\u0069\u0300",
  // ì = \`{i}
  "\u00ef": "\u0069\u0308",
  // ï = \"{i}
  "\u1e2f": "\u0069\u0308\u0301",
  // ḯ = \"\'{i}
  "\u0129": "\u0069\u0303",
  // ĩ = \~{i}
  "\u012b": "\u0069\u0304",
  // ī = \={i}
  "\u012d": "\u0069\u0306",
  // ĭ = \u{i}
  "\u01d0": "\u0069\u030c",
  // ǐ = \v{i}
  "\u00ee": "\u0069\u0302",
  // î = \^{i}
  "\u01f0": "\u006a\u030c",
  // ǰ = \v{j}
  "\u0135": "\u006a\u0302",
  // ĵ = \^{j}
  "\u1e31": "\u006b\u0301",
  // ḱ = \'{k}
  "\u01e9": "\u006b\u030c",
  // ǩ = \v{k}
  "\u013a": "\u006c\u0301",
  // ĺ = \'{l}
  "\u013e": "\u006c\u030c",
  // ľ = \v{l}
  "\u1e3f": "\u006d\u0301",
  // ḿ = \'{m}
  "\u1e41": "\u006d\u0307",
  // ṁ = \.{m}
  "\u0144": "\u006e\u0301",
  // ń = \'{n}
  "\u01f9": "\u006e\u0300",
  // ǹ = \`{n}
  "\u00f1": "\u006e\u0303",
  // ñ = \~{n}
  "\u0148": "\u006e\u030c",
  // ň = \v{n}
  "\u1e45": "\u006e\u0307",
  // ṅ = \.{n}
  "\u00f3": "\u006f\u0301",
  // ó = \'{o}
  "\u00f2": "\u006f\u0300",
  // ò = \`{o}
  "\u00f6": "\u006f\u0308",
  // ö = \"{o}
  "\u022b": "\u006f\u0308\u0304",
  // ȫ = \"\={o}
  "\u00f5": "\u006f\u0303",
  // õ = \~{o}
  "\u1e4d": "\u006f\u0303\u0301",
  // ṍ = \~\'{o}
  "\u1e4f": "\u006f\u0303\u0308",
  // ṏ = \~\"{o}
  "\u022d": "\u006f\u0303\u0304",
  // ȭ = \~\={o}
  "\u014d": "\u006f\u0304",
  // ō = \={o}
  "\u1e53": "\u006f\u0304\u0301",
  // ṓ = \=\'{o}
  "\u1e51": "\u006f\u0304\u0300",
  // ṑ = \=\`{o}
  "\u014f": "\u006f\u0306",
  // ŏ = \u{o}
  "\u01d2": "\u006f\u030c",
  // ǒ = \v{o}
  "\u00f4": "\u006f\u0302",
  // ô = \^{o}
  "\u1ed1": "\u006f\u0302\u0301",
  // ố = \^\'{o}
  "\u1ed3": "\u006f\u0302\u0300",
  // ồ = \^\`{o}
  "\u1ed7": "\u006f\u0302\u0303",
  // ỗ = \^\~{o}
  "\u022f": "\u006f\u0307",
  // ȯ = \.{o}
  "\u0231": "\u006f\u0307\u0304",
  // ȱ = \.\={o}
  "\u0151": "\u006f\u030b",
  // ő = \H{o}
  "\u1e55": "\u0070\u0301",
  // ṕ = \'{p}
  "\u1e57": "\u0070\u0307",
  // ṗ = \.{p}
  "\u0155": "\u0072\u0301",
  // ŕ = \'{r}
  "\u0159": "\u0072\u030c",
  // ř = \v{r}
  "\u1e59": "\u0072\u0307",
  // ṙ = \.{r}
  "\u015b": "\u0073\u0301",
  // ś = \'{s}
  "\u1e65": "\u0073\u0301\u0307",
  // ṥ = \'\.{s}
  "\u0161": "\u0073\u030c",
  // š = \v{s}
  "\u1e67": "\u0073\u030c\u0307",
  // ṧ = \v\.{s}
  "\u015d": "\u0073\u0302",
  // ŝ = \^{s}
  "\u1e61": "\u0073\u0307",
  // ṡ = \.{s}
  "\u1e97": "\u0074\u0308",
  // ẗ = \"{t}
  "\u0165": "\u0074\u030c",
  // ť = \v{t}
  "\u1e6b": "\u0074\u0307",
  // ṫ = \.{t}
  "\u00fa": "\u0075\u0301",
  // ú = \'{u}
  "\u00f9": "\u0075\u0300",
  // ù = \`{u}
  "\u00fc": "\u0075\u0308",
  // ü = \"{u}
  "\u01d8": "\u0075\u0308\u0301",
  // ǘ = \"\'{u}
  "\u01dc": "\u0075\u0308\u0300",
  // ǜ = \"\`{u}
  "\u01d6": "\u0075\u0308\u0304",
  // ǖ = \"\={u}
  "\u01da": "\u0075\u0308\u030c",
  // ǚ = \"\v{u}
  "\u0169": "\u0075\u0303",
  // ũ = \~{u}
  "\u1e79": "\u0075\u0303\u0301",
  // ṹ = \~\'{u}
  "\u016b": "\u0075\u0304",
  // ū = \={u}
  "\u1e7b": "\u0075\u0304\u0308",
  // ṻ = \=\"{u}
  "\u016d": "\u0075\u0306",
  // ŭ = \u{u}
  "\u01d4": "\u0075\u030c",
  // ǔ = \v{u}
  "\u00fb": "\u0075\u0302",
  // û = \^{u}
  "\u016f": "\u0075\u030a",
  // ů = \r{u}
  "\u0171": "\u0075\u030b",
  // ű = \H{u}
  "\u1e7d": "\u0076\u0303",
  // ṽ = \~{v}
  "\u1e83": "\u0077\u0301",
  // ẃ = \'{w}
  "\u1e81": "\u0077\u0300",
  // ẁ = \`{w}
  "\u1e85": "\u0077\u0308",
  // ẅ = \"{w}
  "\u0175": "\u0077\u0302",
  // ŵ = \^{w}
  "\u1e87": "\u0077\u0307",
  // ẇ = \.{w}
  "\u1e98": "\u0077\u030a",
  // ẘ = \r{w}
  "\u1e8d": "\u0078\u0308",
  // ẍ = \"{x}
  "\u1e8b": "\u0078\u0307",
  // ẋ = \.{x}
  "\u00fd": "\u0079\u0301",
  // ý = \'{y}
  "\u1ef3": "\u0079\u0300",
  // ỳ = \`{y}
  "\u00ff": "\u0079\u0308",
  // ÿ = \"{y}
  "\u1ef9": "\u0079\u0303",
  // ỹ = \~{y}
  "\u0233": "\u0079\u0304",
  // ȳ = \={y}
  "\u0177": "\u0079\u0302",
  // ŷ = \^{y}
  "\u1e8f": "\u0079\u0307",
  // ẏ = \.{y}
  "\u1e99": "\u0079\u030a",
  // ẙ = \r{y}
  "\u017a": "\u007a\u0301",
  // ź = \'{z}
  "\u017e": "\u007a\u030c",
  // ž = \v{z}
  "\u1e91": "\u007a\u0302",
  // ẑ = \^{z}
  "\u017c": "\u007a\u0307",
  // ż = \.{z}
  "\u00c1": "\u0041\u0301",
  // Á = \'{A}
  "\u00c0": "\u0041\u0300",
  // À = \`{A}
  "\u00c4": "\u0041\u0308",
  // Ä = \"{A}
  "\u01de": "\u0041\u0308\u0304",
  // Ǟ = \"\={A}
  "\u00c3": "\u0041\u0303",
  // Ã = \~{A}
  "\u0100": "\u0041\u0304",
  // Ā = \={A}
  "\u0102": "\u0041\u0306",
  // Ă = \u{A}
  "\u1eae": "\u0041\u0306\u0301",
  // Ắ = \u\'{A}
  "\u1eb0": "\u0041\u0306\u0300",
  // Ằ = \u\`{A}
  "\u1eb4": "\u0041\u0306\u0303",
  // Ẵ = \u\~{A}
  "\u01cd": "\u0041\u030c",
  // Ǎ = \v{A}
  "\u00c2": "\u0041\u0302",
  // Â = \^{A}
  "\u1ea4": "\u0041\u0302\u0301",
  // Ấ = \^\'{A}
  "\u1ea6": "\u0041\u0302\u0300",
  // Ầ = \^\`{A}
  "\u1eaa": "\u0041\u0302\u0303",
  // Ẫ = \^\~{A}
  "\u0226": "\u0041\u0307",
  // Ȧ = \.{A}
  "\u01e0": "\u0041\u0307\u0304",
  // Ǡ = \.\={A}
  "\u00c5": "\u0041\u030a",
  // Å = \r{A}
  "\u01fa": "\u0041\u030a\u0301",
  // Ǻ = \r\'{A}
  "\u1e02": "\u0042\u0307",
  // Ḃ = \.{B}
  "\u0106": "\u0043\u0301",
  // Ć = \'{C}
  "\u010c": "\u0043\u030c",
  // Č = \v{C}
  "\u0108": "\u0043\u0302",
  // Ĉ = \^{C}
  "\u010a": "\u0043\u0307",
  // Ċ = \.{C}
  "\u010e": "\u0044\u030c",
  // Ď = \v{D}
  "\u1e0a": "\u0044\u0307",
  // Ḋ = \.{D}
  "\u00c9": "\u0045\u0301",
  // É = \'{E}
  "\u00c8": "\u0045\u0300",
  // È = \`{E}
  "\u00cb": "\u0045\u0308",
  // Ë = \"{E}
  "\u1ebc": "\u0045\u0303",
  // Ẽ = \~{E}
  "\u0112": "\u0045\u0304",
  // Ē = \={E}
  "\u1e16": "\u0045\u0304\u0301",
  // Ḗ = \=\'{E}
  "\u1e14": "\u0045\u0304\u0300",
  // Ḕ = \=\`{E}
  "\u0114": "\u0045\u0306",
  // Ĕ = \u{E}
  "\u011a": "\u0045\u030c",
  // Ě = \v{E}
  "\u00ca": "\u0045\u0302",
  // Ê = \^{E}
  "\u1ebe": "\u0045\u0302\u0301",
  // Ế = \^\'{E}
  "\u1ec0": "\u0045\u0302\u0300",
  // Ề = \^\`{E}
  "\u1ec4": "\u0045\u0302\u0303",
  // Ễ = \^\~{E}
  "\u0116": "\u0045\u0307",
  // Ė = \.{E}
  "\u1e1e": "\u0046\u0307",
  // Ḟ = \.{F}
  "\u01f4": "\u0047\u0301",
  // Ǵ = \'{G}
  "\u1e20": "\u0047\u0304",
  // Ḡ = \={G}
  "\u011e": "\u0047\u0306",
  // Ğ = \u{G}
  "\u01e6": "\u0047\u030c",
  // Ǧ = \v{G}
  "\u011c": "\u0047\u0302",
  // Ĝ = \^{G}
  "\u0120": "\u0047\u0307",
  // Ġ = \.{G}
  "\u1e26": "\u0048\u0308",
  // Ḧ = \"{H}
  "\u021e": "\u0048\u030c",
  // Ȟ = \v{H}
  "\u0124": "\u0048\u0302",
  // Ĥ = \^{H}
  "\u1e22": "\u0048\u0307",
  // Ḣ = \.{H}
  "\u00cd": "\u0049\u0301",
  // Í = \'{I}
  "\u00cc": "\u0049\u0300",
  // Ì = \`{I}
  "\u00cf": "\u0049\u0308",
  // Ï = \"{I}
  "\u1e2e": "\u0049\u0308\u0301",
  // Ḯ = \"\'{I}
  "\u0128": "\u0049\u0303",
  // Ĩ = \~{I}
  "\u012a": "\u0049\u0304",
  // Ī = \={I}
  "\u012c": "\u0049\u0306",
  // Ĭ = \u{I}
  "\u01cf": "\u0049\u030c",
  // Ǐ = \v{I}
  "\u00ce": "\u0049\u0302",
  // Î = \^{I}
  "\u0130": "\u0049\u0307",
  // İ = \.{I}
  "\u0134": "\u004a\u0302",
  // Ĵ = \^{J}
  "\u1e30": "\u004b\u0301",
  // Ḱ = \'{K}
  "\u01e8": "\u004b\u030c",
  // Ǩ = \v{K}
  "\u0139": "\u004c\u0301",
  // Ĺ = \'{L}
  "\u013d": "\u004c\u030c",
  // Ľ = \v{L}
  "\u1e3e": "\u004d\u0301",
  // Ḿ = \'{M}
  "\u1e40": "\u004d\u0307",
  // Ṁ = \.{M}
  "\u0143": "\u004e\u0301",
  // Ń = \'{N}
  "\u01f8": "\u004e\u0300",
  // Ǹ = \`{N}
  "\u00d1": "\u004e\u0303",
  // Ñ = \~{N}
  "\u0147": "\u004e\u030c",
  // Ň = \v{N}
  "\u1e44": "\u004e\u0307",
  // Ṅ = \.{N}
  "\u00d3": "\u004f\u0301",
  // Ó = \'{O}
  "\u00d2": "\u004f\u0300",
  // Ò = \`{O}
  "\u00d6": "\u004f\u0308",
  // Ö = \"{O}
  "\u022a": "\u004f\u0308\u0304",
  // Ȫ = \"\={O}
  "\u00d5": "\u004f\u0303",
  // Õ = \~{O}
  "\u1e4c": "\u004f\u0303\u0301",
  // Ṍ = \~\'{O}
  "\u1e4e": "\u004f\u0303\u0308",
  // Ṏ = \~\"{O}
  "\u022c": "\u004f\u0303\u0304",
  // Ȭ = \~\={O}
  "\u014c": "\u004f\u0304",
  // Ō = \={O}
  "\u1e52": "\u004f\u0304\u0301",
  // Ṓ = \=\'{O}
  "\u1e50": "\u004f\u0304\u0300",
  // Ṑ = \=\`{O}
  "\u014e": "\u004f\u0306",
  // Ŏ = \u{O}
  "\u01d1": "\u004f\u030c",
  // Ǒ = \v{O}
  "\u00d4": "\u004f\u0302",
  // Ô = \^{O}
  "\u1ed0": "\u004f\u0302\u0301",
  // Ố = \^\'{O}
  "\u1ed2": "\u004f\u0302\u0300",
  // Ồ = \^\`{O}
  "\u1ed6": "\u004f\u0302\u0303",
  // Ỗ = \^\~{O}
  "\u022e": "\u004f\u0307",
  // Ȯ = \.{O}
  "\u0230": "\u004f\u0307\u0304",
  // Ȱ = \.\={O}
  "\u0150": "\u004f\u030b",
  // Ő = \H{O}
  "\u1e54": "\u0050\u0301",
  // Ṕ = \'{P}
  "\u1e56": "\u0050\u0307",
  // Ṗ = \.{P}
  "\u0154": "\u0052\u0301",
  // Ŕ = \'{R}
  "\u0158": "\u0052\u030c",
  // Ř = \v{R}
  "\u1e58": "\u0052\u0307",
  // Ṙ = \.{R}
  "\u015a": "\u0053\u0301",
  // Ś = \'{S}
  "\u1e64": "\u0053\u0301\u0307",
  // Ṥ = \'\.{S}
  "\u0160": "\u0053\u030c",
  // Š = \v{S}
  "\u1e66": "\u0053\u030c\u0307",
  // Ṧ = \v\.{S}
  "\u015c": "\u0053\u0302",
  // Ŝ = \^{S}
  "\u1e60": "\u0053\u0307",
  // Ṡ = \.{S}
  "\u0164": "\u0054\u030c",
  // Ť = \v{T}
  "\u1e6a": "\u0054\u0307",
  // Ṫ = \.{T}
  "\u00da": "\u0055\u0301",
  // Ú = \'{U}
  "\u00d9": "\u0055\u0300",
  // Ù = \`{U}
  "\u00dc": "\u0055\u0308",
  // Ü = \"{U}
  "\u01d7": "\u0055\u0308\u0301",
  // Ǘ = \"\'{U}
  "\u01db": "\u0055\u0308\u0300",
  // Ǜ = \"\`{U}
  "\u01d5": "\u0055\u0308\u0304",
  // Ǖ = \"\={U}
  "\u01d9": "\u0055\u0308\u030c",
  // Ǚ = \"\v{U}
  "\u0168": "\u0055\u0303",
  // Ũ = \~{U}
  "\u1e78": "\u0055\u0303\u0301",
  // Ṹ = \~\'{U}
  "\u016a": "\u0055\u0304",
  // Ū = \={U}
  "\u1e7a": "\u0055\u0304\u0308",
  // Ṻ = \=\"{U}
  "\u016c": "\u0055\u0306",
  // Ŭ = \u{U}
  "\u01d3": "\u0055\u030c",
  // Ǔ = \v{U}
  "\u00db": "\u0055\u0302",
  // Û = \^{U}
  "\u016e": "\u0055\u030a",
  // Ů = \r{U}
  "\u0170": "\u0055\u030b",
  // Ű = \H{U}
  "\u1e7c": "\u0056\u0303",
  // Ṽ = \~{V}
  "\u1e82": "\u0057\u0301",
  // Ẃ = \'{W}
  "\u1e80": "\u0057\u0300",
  // Ẁ = \`{W}
  "\u1e84": "\u0057\u0308",
  // Ẅ = \"{W}
  "\u0174": "\u0057\u0302",
  // Ŵ = \^{W}
  "\u1e86": "\u0057\u0307",
  // Ẇ = \.{W}
  "\u1e8c": "\u0058\u0308",
  // Ẍ = \"{X}
  "\u1e8a": "\u0058\u0307",
  // Ẋ = \.{X}
  "\u00dd": "\u0059\u0301",
  // Ý = \'{Y}
  "\u1ef2": "\u0059\u0300",
  // Ỳ = \`{Y}
  "\u0178": "\u0059\u0308",
  // Ÿ = \"{Y}
  "\u1ef8": "\u0059\u0303",
  // Ỹ = \~{Y}
  "\u0232": "\u0059\u0304",
  // Ȳ = \={Y}
  "\u0176": "\u0059\u0302",
  // Ŷ = \^{Y}
  "\u1e8e": "\u0059\u0307",
  // Ẏ = \.{Y}
  "\u0179": "\u005a\u0301",
  // Ź = \'{Z}
  "\u017d": "\u005a\u030c",
  // Ž = \v{Z}
  "\u1e90": "\u005a\u0302",
  // Ẑ = \^{Z}
  "\u017b": "\u005a\u0307",
  // Ż = \.{Z}
  "\u03ac": "\u03b1\u0301",
  // ά = \'{α}
  "\u1f70": "\u03b1\u0300",
  // ὰ = \`{α}
  "\u1fb1": "\u03b1\u0304",
  // ᾱ = \={α}
  "\u1fb0": "\u03b1\u0306",
  // ᾰ = \u{α}
  "\u03ad": "\u03b5\u0301",
  // έ = \'{ε}
  "\u1f72": "\u03b5\u0300",
  // ὲ = \`{ε}
  "\u03ae": "\u03b7\u0301",
  // ή = \'{η}
  "\u1f74": "\u03b7\u0300",
  // ὴ = \`{η}
  "\u03af": "\u03b9\u0301",
  // ί = \'{ι}
  "\u1f76": "\u03b9\u0300",
  // ὶ = \`{ι}
  "\u03ca": "\u03b9\u0308",
  // ϊ = \"{ι}
  "\u0390": "\u03b9\u0308\u0301",
  // ΐ = \"\'{ι}
  "\u1fd2": "\u03b9\u0308\u0300",
  // ῒ = \"\`{ι}
  "\u1fd1": "\u03b9\u0304",
  // ῑ = \={ι}
  "\u1fd0": "\u03b9\u0306",
  // ῐ = \u{ι}
  "\u03cc": "\u03bf\u0301",
  // ό = \'{ο}
  "\u1f78": "\u03bf\u0300",
  // ὸ = \`{ο}
  "\u03cd": "\u03c5\u0301",
  // ύ = \'{υ}
  "\u1f7a": "\u03c5\u0300",
  // ὺ = \`{υ}
  "\u03cb": "\u03c5\u0308",
  // ϋ = \"{υ}
  "\u03b0": "\u03c5\u0308\u0301",
  // ΰ = \"\'{υ}
  "\u1fe2": "\u03c5\u0308\u0300",
  // ῢ = \"\`{υ}
  "\u1fe1": "\u03c5\u0304",
  // ῡ = \={υ}
  "\u1fe0": "\u03c5\u0306",
  // ῠ = \u{υ}
  "\u03ce": "\u03c9\u0301",
  // ώ = \'{ω}
  "\u1f7c": "\u03c9\u0300",
  // ὼ = \`{ω}
  "\u038e": "\u03a5\u0301",
  // Ύ = \'{Υ}
  "\u1fea": "\u03a5\u0300",
  // Ὺ = \`{Υ}
  "\u03ab": "\u03a5\u0308",
  // Ϋ = \"{Υ}
  "\u1fe9": "\u03a5\u0304",
  // Ῡ = \={Υ}
  "\u1fe8": "\u03a5\u0306",
  // Ῠ = \u{Υ}
  "\u038f": "\u03a9\u0301",
  // Ώ = \'{Ω}
  "\u1ffa": "\u03a9\u0300" // Ὼ = \`{Ω}

};

/* eslint no-constant-condition:0 */

/**
 * This file contains the parser used to parse out a TeX expression from the
 * input. Since TeX isn't context-free, standard parsers don't work particularly
 * well.
 *
 * The strategy of this parser is as such:
 *
 * The main functions (the `.parse...` ones) take a position in the current
 * parse string to parse tokens from. The lexer (found in Lexer.js, stored at
 * this.gullet.lexer) also supports pulling out tokens at arbitrary places. When
 * individual tokens are needed at a position, the lexer is called to pull out a
 * token, which is then used.
 *
 * The parser has a property called "mode" indicating the mode that
 * the parser is currently in. Currently it has to be one of "math" or
 * "text", which denotes whether the current environment is a math-y
 * one or a text-y one (e.g. inside \text). Currently, this serves to
 * limit the functions which can be used in text mode.
 *
 * The main functions then return an object which contains the useful data that
 * was parsed at its given point, and a new position at the end of the parsed
 * data. The main functions can call each other and continue the parsing by
 * using the returned position as a new starting point.
 *
 * There are also extra `.handle...` functions, which pull out some reused
 * functionality into self-contained functions.
 *
 * The functions return ParseNodes.
 */
class Parser {
  constructor(input, settings) {
    this.mode = void 0;
    this.gullet = void 0;
    this.settings = void 0;
    this.leftrightDepth = void 0;
    this.nextToken = void 0;
    // Start in math mode
    this.mode = "math"; // Create a new macro expander (gullet) and (indirectly via that) also a
    // new lexer (mouth) for this parser (stomach, in the language of TeX)

    this.gullet = new MacroExpander(input, settings, this.mode); // Store the settings for use in parsing

    this.settings = settings; // Count leftright depth (for \middle errors)

    this.leftrightDepth = 0;
  }
  /**
   * Checks a result to make sure it has the right type, and throws an
   * appropriate error otherwise.
   */


  expect(text, consume) {
    if (consume === void 0) {
      consume = true;
    }

    if (this.nextToken.text !== text) {
      throw new ParseError("Expected '" + text + "', got '" + this.nextToken.text + "'", this.nextToken);
    }

    if (consume) {
      this.consume();
    }
  }
  /**
   * Considers the current look ahead token as consumed,
   * and fetches the one after that as the new look ahead.
   */


  consume() {
    this.nextToken = this.gullet.expandNextToken();
  }
  /**
   * Switches between "text" and "math" modes.
   */


  switchMode(newMode) {
    this.mode = newMode;
    this.gullet.switchMode(newMode);
  }
  /**
   * Main parsing function, which parses an entire input.
   */


  parse() {
    // Create a group namespace for the math expression.
    // (LaTeX creates a new group for every $...$, $$...$$, \[...\].)
    this.gullet.beginGroup(); // Use old \color behavior (same as LaTeX's \textcolor) if requested.
    // We do this within the group for the math expression, so it doesn't
    // pollute settings.macros.

    if (this.settings.colorIsTextColor) {
      this.gullet.macros.set("\\color", "\\textcolor");
    } // Try to parse the input


    this.consume();
    const parse = this.parseExpression(false); // If we succeeded, make sure there's an EOF at the end

    this.expect("EOF", false); // End the group namespace for the expression

    this.gullet.endGroup();
    return parse;
  }

  parseExpression(breakOnInfix, breakOnTokenText) {
    const body = []; // Keep adding atoms to the body until we can't parse any more atoms (either
    // we reached the end, a }, or a \right)

    while (true) {
      // Ignore spaces in math mode
      if (this.mode === "math") {
        this.consumeSpaces();
      }

      const lex = this.nextToken;

      if (Parser.endOfExpression.indexOf(lex.text) !== -1) {
        break;
      }

      if (breakOnTokenText && lex.text === breakOnTokenText) {
        break;
      }

      if (breakOnInfix && functions[lex.text] && functions[lex.text].infix) {
        break;
      }

      const atom = this.parseAtom(breakOnTokenText);

      if (!atom) {
        break;
      }

      body.push(atom);
    }

    if (this.mode === "text") {
      this.formLigatures(body);
    }

    return this.handleInfixNodes(body);
  }
  /**
   * Rewrites infix operators such as \over with corresponding commands such
   * as \frac.
   *
   * There can only be one infix operator per group.  If there's more than one
   * then the expression is ambiguous.  This can be resolved by adding {}.
   */


  handleInfixNodes(body) {
    let overIndex = -1;
    let funcName;

    for (let i = 0; i < body.length; i++) {
      const node = checkNodeType(body[i], "infix");

      if (node) {
        if (overIndex !== -1) {
          throw new ParseError("only one infix operator per group", node.token);
        }

        overIndex = i;
        funcName = node.replaceWith;
      }
    }

    if (overIndex !== -1 && funcName) {
      let numerNode;
      let denomNode;
      const numerBody = body.slice(0, overIndex);
      const denomBody = body.slice(overIndex + 1);

      if (numerBody.length === 1 && numerBody[0].type === "ordgroup") {
        numerNode = numerBody[0];
      } else {
        numerNode = {
          type: "ordgroup",
          mode: this.mode,
          body: numerBody
        };
      }

      if (denomBody.length === 1 && denomBody[0].type === "ordgroup") {
        denomNode = denomBody[0];
      } else {
        denomNode = {
          type: "ordgroup",
          mode: this.mode,
          body: denomBody
        };
      }

      let node;

      if (funcName === "\\\\abovefrac") {
        node = this.callFunction(funcName, [numerNode, body[overIndex], denomNode], []);
      } else {
        node = this.callFunction(funcName, [numerNode, denomNode], []);
      }

      return [node];
    } else {
      return body;
    }
  } // The greediness of a superscript or subscript


  /**
   * Handle a subscript or superscript with nice errors.
   */
  handleSupSubscript(name) {
    const symbolToken = this.nextToken;
    const symbol = symbolToken.text;
    this.consume();
    this.consumeSpaces(); // ignore spaces before sup/subscript argument

    const group = this.parseGroup(name, false, Parser.SUPSUB_GREEDINESS);

    if (!group) {
      throw new ParseError("Expected group after '" + symbol + "'", symbolToken);
    }

    return group;
  }
  /**
   * Converts the textual input of an unsupported command into a text node
   * contained within a color node whose color is determined by errorColor
   */


  handleUnsupportedCmd() {
    const text = this.nextToken.text;
    const textordArray = [];

    for (let i = 0; i < text.length; i++) {
      textordArray.push({
        type: "textord",
        mode: "text",
        text: text[i]
      });
    }

    const textNode = {
      type: "text",
      mode: this.mode,
      body: textordArray
    };
    const colorNode = {
      type: "color",
      mode: this.mode,
      color: this.settings.errorColor,
      body: [textNode]
    };
    this.consume();
    return colorNode;
  }
  /**
   * Parses a group with optional super/subscripts.
   */


  parseAtom(breakOnTokenText) {
    // The body of an atom is an implicit group, so that things like
    // \left(x\right)^2 work correctly.
    const base = this.parseGroup("atom", false, null, breakOnTokenText); // In text mode, we don't have superscripts or subscripts

    if (this.mode === "text") {
      return base;
    } // Note that base may be empty (i.e. null) at this point.


    let superscript;
    let subscript;

    while (true) {
      // Guaranteed in math mode, so eat any spaces first.
      this.consumeSpaces(); // Lex the first token

      const lex = this.nextToken;

      if (lex.text === "\\limits" || lex.text === "\\nolimits") {
        // We got a limit control
        const opNode = checkNodeType(base, "op");

        if (opNode) {
          const limits = lex.text === "\\limits";
          opNode.limits = limits;
          opNode.alwaysHandleSupSub = true;
        } else {
          throw new ParseError("Limit controls must follow a math operator", lex);
        }

        this.consume();
      } else if (lex.text === "^") {
        // We got a superscript start
        if (superscript) {
          throw new ParseError("Double superscript", lex);
        }

        superscript = this.handleSupSubscript("superscript");
      } else if (lex.text === "_") {
        // We got a subscript start
        if (subscript) {
          throw new ParseError("Double subscript", lex);
        }

        subscript = this.handleSupSubscript("subscript");
      } else if (lex.text === "'") {
        // We got a prime
        if (superscript) {
          throw new ParseError("Double superscript", lex);
        }

        const prime = {
          type: "textord",
          mode: this.mode,
          text: "\\prime"
        }; // Many primes can be grouped together, so we handle this here

        const primes = [prime];
        this.consume(); // Keep lexing tokens until we get something that's not a prime

        while (this.nextToken.text === "'") {
          // For each one, add another prime to the list
          primes.push(prime);
          this.consume();
        } // If there's a superscript following the primes, combine that
        // superscript in with the primes.


        if (this.nextToken.text === "^") {
          primes.push(this.handleSupSubscript("superscript"));
        } // Put everything into an ordgroup as the superscript


        superscript = {
          type: "ordgroup",
          mode: this.mode,
          body: primes
        };
      } else {
        // If it wasn't ^, _, or ', stop parsing super/subscripts
        break;
      }
    } // Base must be set if superscript or subscript are set per logic above,
    // but need to check here for type check to pass.


    if (superscript || subscript) {
      // If we got either a superscript or subscript, create a supsub
      return {
        type: "supsub",
        mode: this.mode,
        base: base,
        sup: superscript,
        sub: subscript
      };
    } else {
      // Otherwise return the original body
      return base;
    }
  }
  /**
   * Parses an entire function, including its base and all of its arguments.
   */


  parseFunction(breakOnTokenText, name, // For error reporting.
  greediness) {
    const token = this.nextToken;
    const func = token.text;
    const funcData = functions[func];

    if (!funcData) {
      return null;
    }

    if (greediness != null && funcData.greediness <= greediness) {
      throw new ParseError("Got function '" + func + "' with no arguments" + (name ? " as " + name : ""), token);
    } else if (this.mode === "text" && !funcData.allowedInText) {
      throw new ParseError("Can't use function '" + func + "' in text mode", token);
    } else if (this.mode === "math" && funcData.allowedInMath === false) {
      throw new ParseError("Can't use function '" + func + "' in math mode", token);
    } // hyperref package sets the catcode of % as an active character


    if (funcData.argTypes && funcData.argTypes[0] === "url") {
      this.gullet.lexer.setCatcode("%", 13);
    } // Consume the command token after possibly switching to the
    // mode specified by the function (for instant mode switching),
    // and then immediately switch back.


    if (funcData.consumeMode) {
      const oldMode = this.mode;
      this.switchMode(funcData.consumeMode);
      this.consume();
      this.switchMode(oldMode);
    } else {
      this.consume();
    }

    const _this$parseArguments = this.parseArguments(func, funcData),
          args = _this$parseArguments.args,
          optArgs = _this$parseArguments.optArgs;

    return this.callFunction(func, args, optArgs, token, breakOnTokenText);
  }
  /**
   * Call a function handler with a suitable context and arguments.
   */


  callFunction(name, args, optArgs, token, breakOnTokenText) {
    const context = {
      funcName: name,
      parser: this,
      token,
      breakOnTokenText
    };
    const func = functions[name];

    if (func && func.handler) {
      return func.handler(context, args, optArgs);
    } else {
      throw new ParseError(`No function handler for ${name}`);
    }
  }
  /**
   * Parses the arguments of a function or environment
   */


  parseArguments(func, // Should look like "\name" or "\begin{name}".
  funcData) {
    const totalArgs = funcData.numArgs + funcData.numOptionalArgs;

    if (totalArgs === 0) {
      return {
        args: [],
        optArgs: []
      };
    }

    const baseGreediness = funcData.greediness;
    const args = [];
    const optArgs = [];

    for (let i = 0; i < totalArgs; i++) {
      const argType = funcData.argTypes && funcData.argTypes[i];
      const isOptional = i < funcData.numOptionalArgs; // Ignore spaces between arguments.  As the TeXbook says:
      // "After you have said ‘\def\row#1#2{...}’, you are allowed to
      //  put spaces between the arguments (e.g., ‘\row x n’), because
      //  TeX doesn’t use single spaces as undelimited arguments."

      if (i > 0 && !isOptional) {
        this.consumeSpaces();
      } // Also consume leading spaces in math mode, as parseSymbol
      // won't know what to do with them.  This can only happen with
      // macros, e.g. \frac\foo\foo where \foo expands to a space symbol.
      // In LaTeX, the \foo's get treated as (blank) arguments).
      // In KaTeX, for now, both spaces will get consumed.
      // TODO(edemaine)


      if (i === 0 && !isOptional && this.mode === "math") {
        this.consumeSpaces();
      }

      const nextToken = this.nextToken;
      const arg = this.parseGroupOfType("argument to '" + func + "'", argType, isOptional, baseGreediness);

      if (!arg) {
        if (isOptional) {
          optArgs.push(null);
          continue;
        }

        throw new ParseError("Expected group after '" + func + "'", nextToken);
      }

      (isOptional ? optArgs : args).push(arg);
    }

    return {
      args,
      optArgs
    };
  }
  /**
   * Parses a group when the mode is changing.
   */


  parseGroupOfType(name, type, optional, greediness) {
    switch (type) {
      case "color":
        return this.parseColorGroup(optional);

      case "size":
        return this.parseSizeGroup(optional);

      case "url":
        return this.parseUrlGroup(optional);

      case "math":
      case "text":
        return this.parseGroup(name, optional, greediness, undefined, type);

      case "raw":
        {
          if (optional && this.nextToken.text === "{") {
            return null;
          }

          const token = this.parseStringGroup("raw", optional, true);

          if (token) {
            return {
              type: "raw",
              mode: "text",
              string: token.text
            };
          } else {
            throw new ParseError("Expected raw group", this.nextToken);
          }
        }

      case "original":
      case null:
      case undefined:
        return this.parseGroup(name, optional, greediness);

      default:
        throw new ParseError("Unknown group type as " + name, this.nextToken);
    }
  }

  consumeSpaces() {
    while (this.nextToken.text === " ") {
      this.consume();
    }
  }
  /**
   * Parses a group, essentially returning the string formed by the
   * brace-enclosed tokens plus some position information.
   */


  parseStringGroup(modeName, // Used to describe the mode in error messages.
  optional, raw) {
    const groupBegin = optional ? "[" : "{";
    const groupEnd = optional ? "]" : "}";
    const nextToken = this.nextToken;

    if (nextToken.text !== groupBegin) {
      if (optional) {
        return null;
      } else if (raw && nextToken.text !== "EOF" && /[^{}[\]]/.test(nextToken.text)) {
        // allow a single character in raw string group
        this.gullet.lexer.setCatcode("%", 14); // reset the catcode of %

        this.consume();
        return nextToken;
      }
    }

    const outerMode = this.mode;
    this.mode = "text";
    this.expect(groupBegin);
    let str = "";
    const firstToken = this.nextToken;
    let nested = 0; // allow nested braces in raw string group

    let lastToken = firstToken;

    while (raw && nested > 0 || this.nextToken.text !== groupEnd) {
      switch (this.nextToken.text) {
        case "EOF":
          throw new ParseError("Unexpected end of input in " + modeName, firstToken.range(lastToken, str));

        case groupBegin:
          nested++;
          break;

        case groupEnd:
          nested--;
          break;
      }

      lastToken = this.nextToken;
      str += lastToken.text;
      this.consume();
    }

    this.mode = outerMode;
    this.gullet.lexer.setCatcode("%", 14); // reset the catcode of %

    this.expect(groupEnd);
    return firstToken.range(lastToken, str);
  }
  /**
   * Parses a regex-delimited group: the largest sequence of tokens
   * whose concatenated strings match `regex`. Returns the string
   * formed by the tokens plus some position information.
   */


  parseRegexGroup(regex, modeName) {
    const outerMode = this.mode;
    this.mode = "text";
    const firstToken = this.nextToken;
    let lastToken = firstToken;
    let str = "";

    while (this.nextToken.text !== "EOF" && regex.test(str + this.nextToken.text)) {
      lastToken = this.nextToken;
      str += lastToken.text;
      this.consume();
    }

    if (str === "") {
      throw new ParseError("Invalid " + modeName + ": '" + firstToken.text + "'", firstToken);
    }

    this.mode = outerMode;
    return firstToken.range(lastToken, str);
  }
  /**
   * Parses a color description.
   */


  parseColorGroup(optional) {
    const res = this.parseStringGroup("color", optional);

    if (!res) {
      return null;
    }

    const match = /^(#[a-f0-9]{3}|#?[a-f0-9]{6}|[a-z]+)$/i.exec(res.text);

    if (!match) {
      throw new ParseError("Invalid color: '" + res.text + "'", res);
    }

    let color = match[0];

    if (/^[0-9a-f]{6}$/i.test(color)) {
      // We allow a 6-digit HTML color spec without a leading "#".
      // This follows the xcolor package's HTML color model.
      // Predefined color names are all missed by this RegEx pattern.
      color = "#" + color;
    }

    return {
      type: "color-token",
      mode: this.mode,
      color
    };
  }
  /**
   * Parses a size specification, consisting of magnitude and unit.
   */


  parseSizeGroup(optional) {
    let res;
    let isBlank = false;

    if (!optional && this.nextToken.text !== "{") {
      res = this.parseRegexGroup(/^[-+]? *(?:$|\d+|\d+\.\d*|\.\d*) *[a-z]{0,2} *$/, "size");
    } else {
      res = this.parseStringGroup("size", optional);
    }

    if (!res) {
      return null;
    }

    if (!optional && res.text.length === 0) {
      // Because we've tested for what is !optional, this block won't
      // affect \kern, \hspace, etc. It will capture the mandatory arguments
      // to \genfrac and \above.
      res.text = "0pt"; // Enable \above{}

      isBlank = true; // This is here specifically for \genfrac
    }

    const match = /([-+]?) *(\d+(?:\.\d*)?|\.\d+) *([a-z]{2})/.exec(res.text);

    if (!match) {
      throw new ParseError("Invalid size: '" + res.text + "'", res);
    }

    const data = {
      number: +(match[1] + match[2]),
      // sign + magnitude, cast to number
      unit: match[3]
    };

    if (!validUnit(data)) {
      throw new ParseError("Invalid unit: '" + data.unit + "'", res);
    }

    return {
      type: "size",
      mode: this.mode,
      value: data,
      isBlank
    };
  }
  /**
   * Parses an URL, checking escaped letters and allowed protocols.
   */


  parseUrlGroup(optional) {
    const res = this.parseStringGroup("url", optional, true); // get raw string

    if (!res) {
      return null;
    } // hyperref package allows backslashes alone in href, but doesn't
    // generate valid links in such cases; we interpret this as
    // "undefined" behaviour, and keep them as-is. Some browser will
    // replace backslashes with forward slashes.


    const url = res.text.replace(/\\([#$%&~_^{}])/g, '$1');
    let protocol = /^\s*([^\\/#]*?)(?::|&#0*58|&#x0*3a)/i.exec(url);
    protocol = protocol != null ? protocol[1] : "_relative";
    const allowed = this.settings.allowedProtocols;

    if (!utils.contains(allowed, "*") && !utils.contains(allowed, protocol)) {
      throw new ParseError(`Forbidden protocol '${protocol}'`, res);
    }

    return {
      type: "url",
      mode: this.mode,
      url
    };
  }
  /**
   * If `optional` is false or absent, this parses an ordinary group,
   * which is either a single nucleus (like "x") or an expression
   * in braces (like "{x+y}") or an implicit group, a group that starts
   * at the current position, and ends right before a higher explicit
   * group ends, or at EOF.
   * If `optional` is true, it parses either a bracket-delimited expression
   * (like "[x+y]") or returns null to indicate the absence of a
   * bracket-enclosed group.
   * If `mode` is present, switches to that mode while parsing the group,
   * and switches back after.
   */


  parseGroup(name, // For error reporting.
  optional, greediness, breakOnTokenText, mode) {
    const outerMode = this.mode;
    const firstToken = this.nextToken;
    const text = firstToken.text; // Switch to specified mode

    if (mode) {
      this.switchMode(mode);
    }

    let groupEnd;
    let result; // Try to parse an open brace or \begingroup

    if (optional ? text === "[" : text === "{" || text === "\\begingroup") {
      groupEnd = Parser.endOfGroup[text]; // Start a new group namespace

      this.gullet.beginGroup(); // If we get a brace, parse an expression

      this.consume();
      const expression = this.parseExpression(false, groupEnd);
      const lastToken = this.nextToken; // End group namespace before consuming symbol after close brace

      this.gullet.endGroup();
      result = {
        type: "ordgroup",
        mode: this.mode,
        loc: SourceLocation.range(firstToken, lastToken),
        body: expression,
        // A group formed by \begingroup...\endgroup is a semi-simple group
        // which doesn't affect spacing in math mode, i.e., is transparent.
        // https://tex.stackexchange.com/questions/1930/when-should-one-
        // use-begingroup-instead-of-bgroup
        semisimple: text === "\\begingroup" || undefined
      };
    } else if (optional) {
      // Return nothing for an optional group
      result = null;
    } else {
      // If there exists a function with this name, parse the function.
      // Otherwise, just return a nucleus
      result = this.parseFunction(breakOnTokenText, name, greediness) || this.parseSymbol();

      if (result == null && text[0] === "\\" && !implicitCommands.hasOwnProperty(text)) {
        if (this.settings.throwOnError) {
          throw new ParseError("Undefined control sequence: " + text, firstToken);
        }

        result = this.handleUnsupportedCmd();
      }
    } // Switch mode back


    if (mode) {
      this.switchMode(outerMode);
    } // Make sure we got a close brace


    if (groupEnd) {
      this.expect(groupEnd);
    }

    return result;
  }
  /**
   * Form ligature-like combinations of characters for text mode.
   * This includes inputs like "--", "---", "``" and "''".
   * The result will simply replace multiple textord nodes with a single
   * character in each value by a single textord node having multiple
   * characters in its value.  The representation is still ASCII source.
   * The group will be modified in place.
   */


  formLigatures(group) {
    let n = group.length - 1;

    for (let i = 0; i < n; ++i) {
      const a = group[i]; // $FlowFixMe: Not every node type has a `text` property.

      const v = a.text;

      if (v === "-" && group[i + 1].text === "-") {
        if (i + 1 < n && group[i + 2].text === "-") {
          group.splice(i, 3, {
            type: "textord",
            mode: "text",
            loc: SourceLocation.range(a, group[i + 2]),
            text: "---"
          });
          n -= 2;
        } else {
          group.splice(i, 2, {
            type: "textord",
            mode: "text",
            loc: SourceLocation.range(a, group[i + 1]),
            text: "--"
          });
          n -= 1;
        }
      }

      if ((v === "'" || v === "`") && group[i + 1].text === v) {
        group.splice(i, 2, {
          type: "textord",
          mode: "text",
          loc: SourceLocation.range(a, group[i + 1]),
          text: v + v
        });
        n -= 1;
      }
    }
  }
  /**
   * Parse a single symbol out of the string. Here, we handle single character
   * symbols and special functions like verbatim
   */


  parseSymbol() {
    const nucleus = this.nextToken;
    let text = nucleus.text;

    if (/^\\verb[^a-zA-Z]/.test(text)) {
      this.consume();
      let arg = text.slice(5);
      const star = arg.charAt(0) === "*";

      if (star) {
        arg = arg.slice(1);
      } // Lexer's tokenRegex is constructed to always have matching
      // first/last characters.


      if (arg.length < 2 || arg.charAt(0) !== arg.slice(-1)) {
        throw new ParseError(`\\verb assertion failed --
                    please report what input caused this bug`);
      }

      arg = arg.slice(1, -1); // remove first and last char

      return {
        type: "verb",
        mode: "text",
        body: arg,
        star
      };
    } // At this point, we should have a symbol, possibly with accents.
    // First expand any accented base symbol according to unicodeSymbols.


    if (unicodeSymbols.hasOwnProperty(text[0]) && !symbols[this.mode][text[0]]) {
      // This behavior is not strict (XeTeX-compatible) in math mode.
      if (this.settings.strict && this.mode === "math") {
        this.settings.reportNonstrict("unicodeTextInMathMode", `Accented Unicode text character "${text[0]}" used in ` + `math mode`, nucleus);
      }

      text = unicodeSymbols[text[0]] + text.substr(1);
    } // Strip off any combining characters


    const match = combiningDiacriticalMarksEndRegex.exec(text);

    if (match) {
      text = text.substring(0, match.index);

      if (text === 'i') {
        text = '\u0131'; // dotless i, in math and text mode
      } else if (text === 'j') {
        text = '\u0237'; // dotless j, in math and text mode
      }
    } // Recognize base symbol


    let symbol;

    if (symbols[this.mode][text]) {
      if (this.settings.strict && this.mode === 'math' && extraLatin.indexOf(text) >= 0) {
        this.settings.reportNonstrict("unicodeTextInMathMode", `Latin-1/Unicode text character "${text[0]}" used in ` + `math mode`, nucleus);
      }

      const group = symbols[this.mode][text].group;
      const loc = SourceLocation.range(nucleus);
      let s;

      if (ATOMS.hasOwnProperty(group)) {
        // $FlowFixMe
        const family = group;
        s = {
          type: "atom",
          mode: this.mode,
          family,
          loc,
          text
        };
      } else {
        // $FlowFixMe
        s = {
          type: group,
          mode: this.mode,
          loc,
          text
        };
      }

      symbol = s;
    } else if (text.charCodeAt(0) >= 0x80) {
      // no symbol for e.g. ^
      if (this.settings.strict) {
        if (!supportedCodepoint(text.charCodeAt(0))) {
          this.settings.reportNonstrict("unknownSymbol", `Unrecognized Unicode character "${text[0]}"` + ` (${text.charCodeAt(0)})`, nucleus);
        } else if (this.mode === "math") {
          this.settings.reportNonstrict("unicodeTextInMathMode", `Unicode text character "${text[0]}" used in math mode`, nucleus);
        }
      }

      symbol = {
        type: "textord",
        mode: this.mode,
        loc: SourceLocation.range(nucleus),
        text
      };
    } else {
      return null; // EOF, ^, _, {, }, etc.
    }

    this.consume(); // Transform combining characters into accents

    if (match) {
      for (let i = 0; i < match[0].length; i++) {
        const accent = match[0][i];

        if (!unicodeAccents[accent]) {
          throw new ParseError(`Unknown accent ' ${accent}'`, nucleus);
        }

        const command = unicodeAccents[accent][this.mode];

        if (!command) {
          throw new ParseError(`Accent ${accent} unsupported in ${this.mode} mode`, nucleus);
        }

        symbol = {
          type: "accent",
          mode: this.mode,
          loc: SourceLocation.range(nucleus),
          label: command,
          isStretchy: false,
          isShifty: true,
          base: symbol
        };
      }
    }

    return symbol;
  }

}
Parser.endOfExpression = ["}", "\\endgroup", "\\end", "\\right", "&"];
Parser.endOfGroup = {
  "[": "]",
  "{": "}",
  "\\begingroup": "\\endgroup"
  /**
   * Parses an "expression", which is a list of atoms.
   *
   * `breakOnInfix`: Should the parsing stop when we hit infix nodes? This
   *                 happens when functions have higher precendence han infix
   *                 nodes in implicit parses.
   *
   * `breakOnTokenText`: The text of the token that the expression should end
   *                     with, or `null` if something else should end the
   *                     expression.
   */

};
Parser.SUPSUB_GREEDINESS = 1;

/**
 * Provides a single function for parsing an expression using a Parser
 * TODO(emily): Remove this
 */

/**
 * Parses an expression using a Parser, then returns the parsed result.
 */
const parseTree = function parseTree(toParse, settings) {
  if (!(typeof toParse === 'string' || toParse instanceof String)) {
    throw new TypeError('KaTeX can only parse string typed expression');
  }

  const parser = new Parser(toParse, settings); // Blank out any \df@tag to avoid spurious "Duplicate \tag" errors

  delete parser.gullet.macros.current["\\df@tag"];
  let tree = parser.parse(); // If the input used \tag, it will set the \df@tag macro to the tag.
  // In this case, we separately parse the tag and wrap the tree.

  if (parser.gullet.macros.get("\\df@tag")) {
    if (!settings.displayMode) {
      throw new ParseError("\\tag works only in display equations");
    }

    parser.gullet.feed("\\df@tag");
    tree = [{
      type: "tag",
      mode: "text",
      body: tree,
      tag: parser.parse()
    }];
  }

  return tree;
};

/* eslint no-console:0 */

/**
 * Parse and build an expression, and place that expression in the DOM node
 * given.
 */
let render = function render(expression, baseNode, options) {
  baseNode.textContent = "";
  const node = renderToDomTree(expression, options).toNode();
  baseNode.appendChild(node);
}; // KaTeX's styles don't work properly in quirks mode. Print out an error, and
// disable rendering.


if (typeof document !== "undefined") {
  if (document.compatMode !== "CSS1Compat") {
    typeof console !== "undefined" && console.warn("Warning: KaTeX doesn't work in quirks mode. Make sure your " + "website has a suitable doctype.");

    render = function render() {
      throw new ParseError("KaTeX doesn't work in quirks mode.");
    };
  }
}
/**
 * Parse and build an expression, and return the markup for that.
 */


const renderToString = function renderToString(expression, options) {
  const markup = renderToDomTree(expression, options).toMarkup();
  return markup;
};
/**
 * Parse an expression and return the parse tree.
 */


const generateParseTree = function generateParseTree(expression, options) {
  const settings = new Settings(options);
  return parseTree(expression, settings);
};
/**
 * If the given error is a KaTeX ParseError and options.throwOnError is false,
 * renders the invalid LaTeX as a span with hover title giving the KaTeX
 * error message.  Otherwise, simply throws the error.
 */


const renderError = function renderError(error, expression, options) {
  if (options.throwOnError || !(error instanceof ParseError)) {
    throw error;
  }

  const node = buildCommon.makeSpan(["katex-error"], [new SymbolNode(expression)]);
  node.setAttribute("title", error.toString());
  node.setAttribute("style", `color:${options.errorColor}`);
  return node;
};
/**
 * Generates and returns the katex build tree. This is used for advanced
 * use cases (like rendering to custom output).
 */


const renderToDomTree = function renderToDomTree(expression, options) {
  const settings = new Settings(options);

  try {
    const tree = parseTree(expression, settings);
    return buildTree(tree, expression, settings);
  } catch (error) {
    return renderError(error, expression, settings);
  }
};
/**
 * Generates and returns the katex build tree, with just HTML (no MathML).
 * This is used for advanced use cases (like rendering to custom output).
 */


const renderToHTMLTree = function renderToHTMLTree(expression, options) {
  const settings = new Settings(options);

  try {
    const tree = parseTree(expression, settings);
    return buildHTMLTree(tree, expression, settings);
  } catch (error) {
    return renderError(error, expression, settings);
  }
};

var katex = {
  /**
   * Current KaTeX version
   */
  version: "0.10.1",

  /**
   * Renders the given LaTeX into an HTML+MathML combination, and adds
   * it as a child to the specified DOM node.
   */
  render,

  /**
   * Renders the given LaTeX into an HTML+MathML combination string,
   * for sending to the client.
   */
  renderToString,

  /**
   * KaTeX error, usually during parsing.
   */
  ParseError,

  /**
   * Parses the given LaTeX into KaTeX's internal parse tree structure,
   * without rendering to HTML or MathML.
   *
   * NOTE: This method is not currently recommended for public use.
   * The internal tree representation is unstable and is very likely
   * to change. Use at your own risk.
   */
  __parse: generateParseTree,

  /**
   * Renders the given LaTeX into an HTML+MathML internal DOM tree
   * representation, without flattening that representation to a string.
   *
   * NOTE: This method is not currently recommended for public use.
   * The internal tree representation is unstable and is very likely
   * to change. Use at your own risk.
   */
  __renderToDomTree: renderToDomTree,

  /**
   * Renders the given LaTeX into an HTML internal DOM tree representation,
   * without MathML and without flattening that representation to a string.
   *
   * NOTE: This method is not currently recommended for public use.
   * The internal tree representation is unstable and is very likely
   * to change. Use at your own risk.
   */
  __renderToHTMLTree: renderToHTMLTree,

  /**
   * extends internal font metrics object with a new object
   * each key in the new object represents a font name
  */
  __setFontMetrics: setFontMetrics,

  /**
   * adds a new symbol to builtin symbols table
   */
  __defineSymbol: defineSymbol,

  /**
   * adds a new macro to builtin macro list
   */
  __defineMacro: defineMacro,

  /**
   * Expose the dom tree node types, which can be useful for type checking nodes.
   *
   * NOTE: This method is not currently recommended for public use.
   * The internal tree representation is unstable and is very likely
   * to change. Use at your own risk.
   */
  __domTree: {
    Span,
    Anchor,
    SymbolNode,
    SvgNode,
    PathNode,
    LineNode
  }
};

export default katex;
